@InProceedings{ ADCOM2007, author = "Xing Zhou and Thomas Dreibholz and Erwin Paul Rathgeb", title = "{A New Approach of Performance Improvement for Server Selection in Reliable Server Pooling Systems}", booktitle = "{Proceedings of the 15th IEEE International Conference on Advanced Computing and Communication~(ADCOM)}", pages = "117--121", numpages = "5", day = "19", month = dec, year = "2007", address = "Guwahati/India", language = "english", isbn = "0-7695-3059-1", doi = "10.1109/ADCOM.2007.19", keywords = "Reliable Server Pooling~(RSerPool), Redundancy, Load Balancing, Performance Evaluation", abstract = "{Reliable Server Pooling~(RSerPool) is a light-weight protocol framework for server redundancy and session failover, currently still under standardization by the IETF RSerPool WG. While the basic ideas of RSerPool are not completely new, their combination into a single, resource-efficient and unified architecture is. Server redundancy directly leads to the issues of load distribution and load balancing, which are both important for the performance of RSerPool systems. While there has already been some research on the server selection policies of RSerPool, an interesting question still remains open: Is it possible to further improve the load balancing performance of certain policies by simply letting servers reject inappropriately scheduled requests? In this case, the failover handling mechanisms of RSerPool could choose a possibly better server instead. The purpose of this paper is, after presenting an outline of the RSerPool framework, to analyse and evaluate the performance of our new approach. In particular, we will also analyse the impact of RSerPool protocol parameters on the performance of the server selection functionalities as well as on the overhead.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/ADCOM2007.pdf", url.size = "10383819", url.md5 = "8e50985edbad8e96e04a1066c7ccd780", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:18 CEST", note = "{ISBN} 0-7695-3059-1" } @InProceedings{ AINA2009, author = "Xing Zhou and Thomas Dreibholz and Fa Fu and Wencai Du and Erwin Paul Rathgeb", title = "{Evaluation and Optimization of the Registrar Redundancy Handling in Reliable Server Pooling Systems}", booktitle = "{Proceedings of the IEEE 23rd International Conference on Advanced Information Networking and Applications~(AINA)}", pages = "256--262", numpages = "7", day = "26", month = may, year = "2009", address = "Bradford, West Yorkshire/United Kingdom", language = "english", isbn = "978-0-7695-3638-5", doi = "10.1109/AINA.2009.25", keywords = "Reliable Server Pooling~(RSerPool), Redundancy, Takeover, Handlespace Management, Performance Analysis", abstract = "{The Reliable Server Pooling~(RSerPool) architecture is the IETF's new standard for a lightweight server redundancy and session failover framework to support availability-critical applications. RSerPool combines the ideas from different research areas into a single, resource-efficient and unified architecture. Server pools are maintained by redundant management components, which are called registrars. Registrars monitor the availability of servers in the pool and remove them in case of failure. Furthermore, they synchronize their view of the pool with other registrars to provide information redundancy. In this paper, we first analyse the implications of registrar redundancy on the server pool performance. Furthermore, we present an optimization approach for the server pool management, which improves the system performance in case of registrar problems by hardware failures or Denial of Service attacks.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/AINA2009.pdf", url.size = "495559", url.md5 = "85883bf586a6c76481c7a3adbd0f20d6", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:20 CEST", note = "{ISBN} 978-0-7695-3638-5" } @InProceedings{ AINA2010, author = "Thomas Dreibholz and Martin Becke and Jobin Pulinthanath and Erwin Paul Rathgeb", title = "{Applying TCP-Friendly Congestion Control to Concurrent Multipath Transfer}", booktitle = "{Proceedings of the 24th IEEE International Conference on Advanced Information Networking and Applications~(AINA)}", pages = "312--319", numpages = "8", day = "21", month = apr, year = "2010", address = "Perth, Western Australia/Australia", language = "english", isbn = "978-0-7695-4018-4", doi = "10.1109/AINA.2010.117", keywords = "Multi-Homing, Congestion Control, Resource Pooling, Fairness, Proof of Concept", abstract = "{The steadily growing importance of Internet-based applications and their resilience requirements lead to a rising number of multi-homed sites. The idea of Concurrent Multipath Transfer~(CMT) is to exploit the existence of multiple paths among endpoints to increase application data throughput. However, handling the congestion control of each path independently lacks of fairness against non-CMT flows. In this paper, we describe our approach of combining CMT with the idea of Resource Pooling~(RP) in order to achieve a performance improvement over non-CMT transfer while still remaining fair to concurrent flows on congested links. Unlike existing approaches which adapt classic TCP to a multi-homed CMT protocol, our approach does not depend on specific characteristics of TCP. Instead, we base on already entrenched functional blocks of CMT transfer, on the example of the CMT-enabled SCTP~(Stream Control Transmission Protocol). In a simulative proof-of-concept analysis, we show that our approach -- while relatively simple -- is already quite effective.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/SCTP/Paper/AINA2010.pdf", url.size = "979616", url.md5 = "11d400faa0a4c994d27fa6a6ebc5f9cc", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:22 CEST", note = "{ISBN} 978-0-7695-4018-4" } @InProceedings{ AINA2017-BufferSize, author = "Feng Zhou and Thomas Dreibholz and Xing Zhou and Fa Fu and Yuyin Tan and Quan Gan", title = "{The Performance Impact of Buffer Sizes for Multi-Path TCP in Internet Setups}", booktitle = "{Proceedings of the IEEE International Conference on Advanced Information Networking and Applications~(AINA)}", pages = "9--16", numpages = "8", day = "27", month = mar, year = "2017", address = "Taipei, Taiwan/People's Republic of China", language = "english", isbn = "978-1-5090-6028-3", doi = "10.1109/AINA.2017.26", keywords = "Multi-Path Transport, Multi-Path TCP (MPTCP), Buffer Size, Throughput, Robustness", abstract = "{The Multi-Path Transmission Control Protocol (MPTCP) is the new concurrent multi-path transfer extension for the widely-deployed Transmission Control Protocol (TCP). Of course, having multiple and possibly highly dissimilar paths for transmission is a challenge for the management of the send and receive buffers, since optimal throughput is desired with a reasonable allocation of the limited memory resources in MPTCP endpoints. This is particularly important when many MPTCP connections have to be handled simultaneously. This paper measures out the required MPTCP buffer size in the real-world Internet testbed NorNet, comparing theoretical size and real size to analyse MPTCP performance. The experiment shows that multi-path transmission can effectively increase the application payload throughput, and greatly improve the robustness of the data transmission. As an important point of this paper, we can show that appropriate buffer size settings can increase the payload throughput, while not wasting resources. This paper has certain significance for further accurately determining the optimal buffer size settings for multi-path transmission in large-scale Internet setups.}", url = "https://www.simula.no/file/fengzhou-mptcp-webpdf/download", url.size = "1030101", url.md5 = "a1ef777ccb72a3d160bd59fb377879ea", url.mime = "application/pdf", url.pagesize = "595.28 x 841.89 pts (A4)", url.checked = "2017-01-24 12:02:14 CET", note = "{ISBN} 978-1-5090-6028-3" } @InProceedings{ AINA2017-PathMgt, author = "Kun Wang and Thomas Dreibholz and Xing Zhou and Fa Fu and Yuyin Tan and Xi Cheng and Qining Tan", title = "{On the Path Management of Multi-Path TCP in Internet Scenarios based on the NorNet Testbed}", booktitle = "{Proceedings of the IEEE International Conference on Advanced Information Networking and Applications~(AINA)}", pages = "1--8", numpages = "8", day = "27", month = mar, year = "2017", address = "Taipei, Taiwan/People's Republic of China", language = "english", isbn = "978-1-5090-6028-3", doi = "10.1109/AINA.2017.29", keywords = "Multi-Path Transport, Multi-Path TCP (MPTCP), Resilience, Path Management, Congestion Control, Configuration", abstract = "{With the rapid development of Internet communications, there is a growing demand to support devices being connected to multiple Internet service providers simultaneously. For example, every modern smartphone already provides at least mobile broadband (UMTS, LTE) as well as Wi-Fi interfaces. This multi-homing property can be used for resilience, but there is also an increasing interest in making use of concurrent multi-path transport. That is, multiple network paths can be utilised simultaneously, in order to improve the payload throughput for applications like big data or cloud computing. In this paper, we examine the performance of multi-path transport in real-world Internet setups, based on Multi-Path TCP (MPTCP) in the NorNet testbed for multi-homed systems. However, systems in such challenging setups need proper configuration. Therefore, we particularly would like to highlight the performance impact of different path management and congestion control settings in such realistic scenarios.}", url = "https://www.simula.no/file/kunwang-paper-webpdf/download", url.size = "387514", url.md5 = "28dbde48237a546a430f386474476c17", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2017-01-24 12:00:18 CET", note = "{ISBN} 978-1-5090-6028-3" } @InProceedings{ AINTEC2007, author = "Xing Zhou and Thomas Dreibholz and Erwin Paul Rathgeb", title = "{Improving the Load Balancing Performance of Reliable Server Pooling in Heterogeneous Capacity Environments}", booktitle = "{Proceedings of the 3rd Asian Internet Engineering Conference~(AINTEC)}", series = "{Lecture Notes in Computer Science}", volume = "4866", pages = "125--140", numpages = "16", day = "28", month = nov, year = "2007", publisher = "Springer", language = "english", isbn = "978-3-540-76808-1", doi = "10.1007/978-3-540-76809-8_12", keywords = "Reliable Server Pooling~(RSerPool), Redundancy, Load Balancing, Heterogeneous Pools, Performance Evaluation", abstract = "{The IETF is currently standardizing a light-weight protocol framework for server redundancy and session failover: Reliable Server Pooling~(RSerPool). It is the novel combination of ideas from different research areas into a single, resource-efficient and unified architecture. Server redundancy directly leads to the issues of load distribution and load balancing. Both are important and have to be considered for the performance of RSerPool systems. While there has already been some research on the server selection policies of RSerPool, an interesting question is still open: Is it possible to further improve the load balancing performance of the standard policies without modifying the policies -- which are well-known and widely supported -- themselves? Our approach places its focus on the session layer rather than the policies and simply lets servers reject inappropriately scheduled requests. But is this approach useful -- in particular if the server capacities increase in terms of a heterogeneous capacity distribution? Applying failover handling mechanisms of RSerPool, in this case, could choose a more appropriate server instead. In this paper, we first present a short outline of the RSerPool framework. Afterwards, we analyse and evaluate the performance of our new approach for different server capacity distributions. Especially, we are also going to analyse the impact of RSerPool protocol and system parameters on the performance of the server selection functionalities as well as on the overhead.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/AINTEC2007.pdf", url.size = "417206", url.md5 = "a3252db5751ad15acf01794460125589", url.mime = "application/pdf", url.pagesize = "612 x 792 pts (letter)", url.checked = "2014-04-02 17:08:18 CEST", note = "{ISBN} 978-3-540-76808-1" } @InProceedings{ ANRW2017, author = "Felix Weinrank and Karl-Johan Grinnemo and Zdravko Bozakov and Anna Brunström and Thomas Dreibholz and Per Hurtig and Naeem Khademi and Michael Tüxen", title = "{A NEAT Way to Browse the Web}", howpublished = "Demo Presentation", booktitle = "{Proceedings of the ACM, IRTF and ISOC Applied Networking Research Workshop~(ANRW)}", pages = "33--34", numpages = "2", day = "15", month = jul, year = "2017", address = "Praha/Czech Republic", language = "english", isbn = "978-1-4503-5108-9", doi = "10.1145/3106328.3106335", keywords = "NEAT, Ossification, Transport Selection, Transport Service, SCTP, TCP", abstract = "{There is a growing concern that the Internet transport layer has become ossified in the face of emerging novel applications, and that further evolution has become very difficult. The NEAT system is a novel and evolvable transport system that decouples applications from the underlying transport layer and network services. In so doing, it facilitates dynamic transport selection. This demo shows how the NEAT system is able to dynamically select the most appropriate transport solution for the Mozilla Firefox web browser.}", url = "https://www.simula.no/file/anrw17-final13pdf/download", url.size = "426773", url.md5 = "88e5c2bc95ec7b070cf838734646bcfe", url.mime = "application/pdf", url.pagesize = "612 x 792 pts (letter)", url.checked = "2017-08-11 10:05:58 CEST", note = "{ISBN} 978-1-4503-5108-9" } @InProceedings{ ANRW2020, author = "Ioana Alexandrina Livadariu and Thomas Dreibholz and Anas Saeed Al-Selwi and Haakon Bryhni and Olav Lysne and Steinar Bjørnstad and Ahmed Mustafa Elmokashfi", title = "{On the Accuracy of Country-Level IP Geolocation}", booktitle = "{Proceedings of the ACM/IRTF Applied Networking Research Workshop~(ARNW)}", pages = "67--73", numpages = "7", day = "27", month = jul, year = "2020", address = "Madrid/Spain", language = "english", isbn = "978-1-4503-8039-3", doi = "10.1145/3404868.3406664", abstract = "{The proliferation of online services comprised of globally spread microservices has security and performance implications. Understanding the underlying physical paths connecting end points has become important. This paper investigates the accuracy of commonly used IP geolocation approaches in geolocating end-to-end IP paths. To this end, we perform a controlled measurement study to collect IP level paths. We find that existing databases tend to geolocate IPs that belong to networks with global presence and those move between networks erroneously. A small percentage of IP geolocation disagreement between databases results in a significant disagreement when geolocating end-to-end paths. Geolocating one week of RIPE traceroute data validates our observations.}", url = "https://www.simula.no/file/anrw2020pdf/download", url.size = "430257", url.md5 = "2d789a1f7bf2ef99da8b595b2a1bb546", url.mime = "application/pdf", url.pagesize = "612 x 792 pts (letter)", url.checked = "2020-09-16 20:37:02 CEST", url.keywords = "IP Geolocation; Geolocation Databases; Geolocation Approaches", note = "{ISBN} 978-1-4503-8039-3" } @Misc{ CAIA2014, author = "Thomas Dreibholz", title = "{NorNet -- An Open, Large-Scale Testbed for Multi-Homed Systems}", howpublished = "Invited Talk at Swinburne University, Centre for Advanced Internet Architectures~(CAIA)", numpages = "31", day = "30", month = jan, year = "2014", address = "Melbourne, Victoria/Australia", language = "english", keywords = "NorNet, NorNet Core, NorNet Edge, Testbed, Multi-Homing, Introduction, Status", abstract = "{Multi-homing denotes the simultaneous connection of endpoints (e.g.\ cloud servers, smartphones, etc.) to multiple Internet Service Providers~(ISP). That is, the endpoints remain reachable even when some of the ISPs have problems (e.g. malfunction of hardware or break of cables). Besides the redundancy aspect, multi-homing can also make load sharing by multi-path transport possible, i.e.\ increasing the application throughput by utilising multiple paths simultaneously. Multi-path transport can e.g.\ be realised by Concurrent Multi-Path Transfer for SCTP~(CMT-SCTP) and Multi-Path TCP~(MPTCP), two protocols that are currently under standardisation in the IETF. The growing need for and deployment of multi-homed applications makes large-scale testing and evaluation in realistic Internet setups necessary. For instance, different paths can have very different characteristics with regard to bandwidth, packet loss rate, congestion, delay and jitter. Therefore, the NorNet project of the Simula Research Laboratory is building up an open platform for such experiments: the NorNet testbed. It provides programmable nodes with multiple ISP connections -- wired as well as wireless -- that are distributed all over Norway as well as some international locations. This talk will give an overview over NorNet with a focus on its usage for research on multi-path transport. Particularly, it will also show how the NorNet testbed can be utilised for research at CAIA/Swinburne University.}", url = "https://www.simula.no/file/caia2014-presentation-webpdf/download", url.size = "4765963", url.md5 = "2c2282e72cc039210aa3b8ee97b389a6", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2015-02-28 10:28:44 CET" } @Misc{ CAIA2015, author = "Thomas Dreibholz", title = "{The NorNet Testbed -- A Large-Scale Experiment Platform for Real-World Experiments with Multi-Homed Systems}", howpublished = "Invited Talk at Swinburne University, Centre for Advanced Internet Architectures~(CAIA)", numpages = "38", day = "29", month = jan, year = "2015", address = "Melbourne, Victoria/Australia", language = "english", keywords = "NorNet, NorNet Core, NorNet Edge, Testbed, Multi-Homing, Introduction, Status", abstract = "{Multi-homing denotes the simultaneous connection of endpoints (e.g.~cloud servers, smartphones, etc.) to multiple Internet Service Providers~(ISP). That is, the endpoints remain reachable even when some of the ISPs have problems (e.g.~malfunction of hardware or break of cables). Besides the redundancy aspect, multi-homing can also make load sharing by multi-path transport possible, i.e.~increasing the application throughput by utilising multiple paths simultaneously. Multi-path transport can e.g.~be realised by Concurrent Multi-Path Transfer for SCTP~(CMT-SCTP) and Multi-Path TCP~(MPTCP), two protocols that are currently under standardisation in the IETF. The growing need for and deployment of multi-homed applications makes large-scale testing and evaluation in realistic Internet setups necessary. For instance, different paths can have very different characteristics with regard to bandwidth, packet loss rate, congestion, delay and jitter. Therefore, the NorNet project of the Simula Research Laboratory is building up an open platform for such experiments: the NorNet testbed. It provides programmable nodes with multiple ISP connections -- wired as well as wireless -- that are distributed all over Norway as well as some international locations. This talk will give an overview over NorNet. Particularly, it will also show how the NorNet testbed can be utilised for research at the Centre for Advanced Internet Architectures~(CAIA) of Swinburne University}", url = "https://www.simula.no/file/caia2015-presentation-webpdf/download", url.size = "6932663", url.md5 = "2794c56370ccbe3a10e6d72ba7ec9c76", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2015-02-28 10:31:06 CET" } @Article{ CommMag2011, author = "Thomas Dreibholz and Irene Rüngeler and Robin Seggelmann and Michael Tüxen and Erwin Paul Rathgeb and Randall~R. Stewart", title = "{Stream Control Transmission Protocol: Past, Current, and Future Standardization Activities}", journal = "{IEEE Communications Magazine}", volume = "49", number = "4", pages = "82--88", numpages = "7", day = "5", month = apr, year = "2011", language = "english", issn = "0163-6804", doi = "10.1109/MCOM.2011.5741151", abstract = "{The Stream Control Transmission Protocol~(SCTP) is a general-purpose transport layer protocol providing a service similar to TCP -- plus a set of advanced features to utilize the enhanced capabilities of modern IP networks and to support increased application requirements. Nowadays, there are SCTP implementations for all major operating systems. While SCTP was standardized as an RFC several years ago, there is still significant ongoing work within the IETF to discuss and standardize further features in the form of protocol extensions. In this article, we first introduce the SCTP base protocol and already standardized extensions. After that, we focus on the ongoing SCTP standardization progress in the IETF and give an overview of activities and challenges in the areas of security and concurrent multipath transport.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/SCTP/Paper/CommMag2011.pdf", url.size = "293278", url.md5 = "51c1a62c2f4dfeb2725b1e0fae3b3d10", url.mime = "application/pdf", url.checked = "2011-06-03 09:44:30 CEST", note = "{ISSN} 0163-6804" } @Article{ ComNets2013-Core, author = "Ernst Gunnar Gran and Thomas Dreibholz and Amund Kvalbein", title = "{NorNet Core -- A Multi-Homed Research Testbed}", journal = "{Computer Networks, Special Issue on Future Internet Testbeds}", volume = "61", pages = "75--87", numpages = "13", day = "14", month = mar, year = "2014", language = "english", issn = "1389-1286", doi = "10.1016/j.bjp.2013.12.035", keywords = "NorNet Core, Testbed, Multi-Homing, Routing, Transport, Applications", abstract = "{Over the last decade, the Internet has grown at a tremendous speed in both size and complexity. Nowadays, a large number of important services -- for instance e-commerce, healthcare and many others -- depend on the availability of the underlying network. Clearly, service interruptions due to network problems may have a severe impact. On the long way towards the Future Internet, the complexity will grow even further. Therefore, new ideas and concepts must be evaluated thoroughly, and particularly in realistic, real-world Internet scenarios, before they can be deployed for production networks. For this purpose, various testbeds -- for instance PlanetLab, GpENI or G-Lab -- have been established and are intensively used for research. However, all of these testbeds lack the support for so-called multi-homing. Multi-homing denotes the connection of a site to multiple Internet service providers, in order to achieve redundancy. Clearly, with the need for network availability, there is a steadily growing demand for multi-homing. The idea of the NorNet Core project is to establish a Future Internet research testbed with multi-homed sites, in order to allow researchers to perform experiments with multi-homed systems. Particular use cases for this testbed include realistic experiments in the areas of multi-path routing, load balancing, multi-path transport protocols, overlay networks and network resilience. In this paper, we introduce the NorNet Core testbed as well as its architecture.}", url = "https://www.simula.no/file/simulasimula2236pdf/download", url.size = "1492106", url.md5 = "2a2237f3e955ca8fb1b768b8a30ba7fe", url.mime = "application/pdf", url.pagesize = "544.252 x 742.677 pts", url.checked = "2014-12-12 18:14:26 CET", note = "{ISSN} 1389-1286" } @Article{ ComNets2016-MultipathSurvey, author = "Kiran Venkata Yedugundla and Simone Ferlin and Thomas Dreibholz and Özgü Alay and Nicolas Kuhn and Per Hurtig and Anna Brunström", title = "{Is Multi-Path Transport Suitable for Latency Sensitive Traffic?}", journal = "{Computer Networks}", volume = "105", pages = "1--21", numpages = "21", day = "4", month = aug, year = "2016", publisher = "Elsevier", language = "english", issn = "1389-1286", doi = "10.1016/j.comnet.2016.05.008", keywords = "Internet, Latency, Multi-Path Communication, Transport Protocols, MPTCP, CMT-SCTP", abstract = "{This paper assesses whether multi-path communication can help latency-sensitive applications to satisfy the requirements of their users. We consider Concurrent Multi-path Transfer for SCTP~(CMT-SCTP) and Multi-Path TCP~(MPTCP) and evaluate their proficiency in transporting video, gaming, and web traffic over combinations of WLAN and 3G interfaces. To ensure the validity of our evaluation, several experimental approaches were used including simulation, emulation and live experiments. When paths are symmetric in terms of capacity, delay and loss rate, we find that the experienced latency is significantly reduced, compared to using a single path. Using multiple asymmetric paths does not affect latency -- applications do not experience any increase or decrease, but might benefit from other advantages of multi-path communication. In the light of our conclusions, multi-path transport is suitable for latency-sensitive traffic and mature enough to be widely deployed.}", url = "https://www.simula.no/file/comnets2016-multipathsurveypdf/download", url.size = "4632900", url.md5 = "568dbefc09c209fa4d5598258d7f0831", url.mime = "application/pdf", url.pagesize = "595.245 x 793.92 pts", url.checked = "2016-05-31 09:07:38 CEST", note = "{ISSN} 1389-1286" } @Article{ ComNets2020, author = "Runa Barik and Michael Welzl and Gorry Fairhurst and Thomas Dreibholz and Ahmed Mustafa Elmokashfi and Stein Gjessing", title = "{On the Usability of Transport Protocols other than TCP: A Home Gateway and Internet Path Traversal Study}", journal = "{Computer Networks}", volume = "173", numpages = "15", day = "22", month = may, year = "2020", publisher = "Elsevier", language = "english", issn = "1389-1286", doi = "10.1016/j.comnet.2020.107211", keywords = "Protocol Testing, SCTP, DCCP, UDP-Lite, NAT, Internet", abstract = "{Network APIs are moving towards protocol agility, where applications express their needs but not a static protocol binding, and it is up to the layer below the API to choose a suitable protocol. The IETF Transport Services (TAPS) Working Group is standardizing a protocol-independent transport API and offering guidance to implementers. Apple’s recent “Network.framework” is specifically designed to allow such late and dynamic binding of protocols. When the network stack autonomously chooses and configures a protocol, it must first test which protocols are locally available and which work end-to-end (“protocol racing”). For this, it is important to know the set of available options, and which protocols should be tried first: Does it make sense to offer unchecked payload delivery, as with UDP-Lite? Is a UDP-based protocol like QUIC always a better choice, or should native SCTP be tried? This paper develops answers to such questions via (i) a NAT study in a local testbed, (ii) bidirectional Internet tests, (iii) a large scale Internet measurement campaign. The examined protocols are: SCTP, DCCP, UDP-Lite, UDP with a zero checksum and three different UDP encapsulations.}", url = "https://www.simula.no/file/comnets2020pdf/download", url.size = "1931530", url.md5 = "5ccb097435fedce9c617adeb99e5e5b0", url.mime = "application/pdf", url.pagesize = "595.245 x 793.92 pts", url.checked = "2020-03-19 13:13:31 CET", note = "{ISSN} 1389-1286" } @InProceedings{ Contel2005, author = "Thomas Dreibholz and Erwin Paul Rathgeb", title = "{Implementing the Reliable Server Pooling Framework}", booktitle = "{Proceedings of the 8th IEEE International Conference on Telecommunications~(ConTEL)}", volume = "1", pages = "21--28", numpages = "8", day = "15", month = jun, year = "2005", address = "Zagreb, Središnja Hrvatska/Croatia", language = "english", isbn = "953-184-081-4", keywords = "Internet Applications, IPv6 Deployment and Applications, SS7, Server Pools", abstract = "{The Reliable Server Pooling~(RSerPool) protocol suite currently under standardization by the IETF is designed to build systems providing highly available services by mechanisms and protocols for establishing, configuring, accessing and monitoring pools of server resources. But RSerPool is not only able to manage pools of redundant servers and facilitate service failover between servers: it also includes sophisticated mechanisms for server selections within the pools. These mechanisms make RSerPool useful for the application in load balancing and distributed computing scenarios. As part of our RSerPool research and to verify results of our simulation model in real-life scenarios, we have created a complete implementation prototype of the RSerPool framework. In this paper, we will give a detailed description of the concepts, ideas and realizations of our prototype. Furthermore, we will show performance issues raised by the management of large servers pools, as it is necessary for load balancing or distributed computing scenarios. We will explain the algorithms and data structures we designed to solve these challenges and finally present a rough performance evaluation that verifies our concept.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/Contel2005.pdf", url.size = "478022", url.md5 = "31d96cdd656dec8bf3febad099c5cc70", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:17 CEST", note = "{ISBN} 953-184-081-4" } @InProceedings{ Contel2009, author = "Thomas Dreibholz and Xing Zhou and Erwin Paul Rathgeb and Wencai Du", title = "{A PlanetLab-Based Performance Analysis of RSerPool Security Mechanisms}", booktitle = "{Proceedings of the 10th IEEE International Conference on Telecommunications~(ConTEL)}", pages = "213--220", numpages = "8", day = "8", month = jun, year = "2009", address = "Zagreb, Središnja Hrvatska/Croatia", language = "english", isbn = "978-953-184-131-3", keywords = "Reliable Server Pooling~(RSerPool), Security, Attacks, Denial of Service, Robustness, Performance Analysis", abstract = "{Reliable Server Pooling~(RSerPool) denotes the new IETF standard for a lightweight server redundancy and session failover framework for availability-critical applications. A number of research papers have already addressed the service and pool management performance of RSerPool in general. However, the important topic of security, including the system robustness against intentional attacks, has not yet been intensively addressed. In particular, none of the proposed Denial of Service~(DoS) attack countermeasure mechanisms has been evaluated in a real-world Internet setup. For that reason, this paper provides an analysis of the robustness of RSerPool systems against DoS attacks. We will outline the DoS attack bandwidth which is necessary for a significant service degradation. Furthermore, we will present simple but effective DoS attack countermeasure mechanisms to significantly reduce the impact of attacks. Our analysis is based on a real-world Internet setup using the PlanetLab. We will furthermore compare the performance measurements against simulation results.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/ConTEL2009.pdf", url.size = "738142", url.md5 = "490dda7191b7b3dae11d61785131040d", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:20 CEST", note = "{ISBN} 978-953-184-131-3" } @InProceedings{ ConTEL2011, author = "Thomas Dreibholz and Martin Becke and Hakim Adhari and Erwin Paul Rathgeb", title = "{On the Impact of Congestion Control for Concurrent Multipath Transfer on the Transport Layer}", booktitle = "{Proceedings of the 11th IEEE International Conference on Telecommunications~(ConTEL)}", pages = "397--404", numpages = "8", day = "16", month = jun, year = "2011", address = "Graz, Steiermark/Austria", language = "english", isbn = "978-953-184-152-8", keywords = "Concurrent Multipath Transfer, Congestion Control, Resource Sharing, Dissimilar Paths, Performance Analysis", abstract = "{Due to the resilience requirements of a steadily growing number of critical Internet services (like emergency call handling or e-commerce transactions), the deployment of multi-homed network sites becomes more and more common. Having multiple Internet access paths, it seems straightforward to utilise them simultaneously in order to improve payload throughput by so-called Concurrent Multipath Transfer~(CMT). Currently, CMT extensions for the two important Internet Transport Layer protocols -- Multipath-TCP~(MPTCP) for TCP and CMT-SCTP for SCTP -- are in the focus of IETF standardisation. A challenge -- which is currently very actively discussed in the IETF context -- is congestion control for these CMT protocols. Based on the idea of Resource Pooling~(RP), two approaches are currently discussed in the IETF: our own approach CMT/RP for CMT-SCTP as well as the MPTCP congestion control for MPTCP. Both approaches only have been roughly tested yet -- mostly in similar path setups, i.e.\ paths having almost the same QoS characteristics, using "their" protocol. Therefore, the goal of this paper is to compare the existing approaches. Particularly, we also analyse more challenging scenarios containing dissimilar paths, i.e.\ paths having differing characteristics. Our goal is to provide insight into the different approaches, to support the IETF standardisation activities on CMT.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/SCTP/Paper/ConTEL2011.pdf", url.size = "6653265", url.md5 = "aaf983738968d60f58a9abafc54d4344", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:24 CEST", note = "{ISBN} 978-953-184-152-8" } @InProceedings{ ConTEL2013, author = "Martin Becke and Thomas Dreibholz and Andreas Bayer and Markus Packeiser and Erwin Paul Rathgeb", title = "{Alternative Transmission Strategies for Multipath Transport of Multimedia Streams over Wireless Networks}", booktitle = "{Proceedings of the 12th IEEE International Conference on Telecommunications~(ConTEL)}", pages = "147--153", numpages = "7", day = "26", month = jun, year = "2013", address = "Zagreb, Središnja Hrvatska/Croatia", language = "english", isbn = "978-953-184-175-7", keywords = "Multi-Path Transfer, Multimedia Transport, Scheduling Strategies, Real-Time, Wireless", abstract = "{With the strongly growing popularity of mobile devices like smartphones and tablet computers, the number of end-systems with more than one network access -- like UMTS/LTE and WLAN -- is also increasing. This so-called multi-homing also leads to the desire of utilising multiple network paths simultaneously, in order to improve application payload throughput. Clearly, this so-called multi-path transfer feature is also very useful for the transport of multimedia contents, particularly when a single network access alone is not fast enough to fulfil the bandwidth requirements of the application. In many cases, multimedia transport is also sensitive for delays and packet losses. However, the focus of the current multi-path transfer approaches has been on bandwidth only. In order to tackle this challenge, our paper introduces two new send strategies to map payload data to different wireless paths. Finally, by using measurements, we show that a significant performance improvement for delay and loss-sensitive applications can be achieved in comparison to the existing approaches.}", url = "https://www.simula.no/file/simulasimula2000pdf/download", url.size = "810133", url.md5 = "b6125ad32798a84b2be4a349000fc1c3", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-12-12 18:14:02 CET", note = "{ISBN} 978-953-184-175-7" } @TechReport{ CRNA-Rapport2018, author = "Ahmed Mustafa Elmokashfi and Amund Kvalbein and Thomas Dreibholz and Chad Jarvis", title = "{Norske mobilnett i~2018 -- Tilstandsrapport fra Centre for Resilient Networks and Applications}", numpages = "49", day = "29", month = may, year = "2019", institution = "Simula Metropolitan Center for Digital Engineering, Centre for Resilient Networks and Applications~(CRNA)", address = "Oslo/Norway", language = "norsk", isbn = "978-82-92593-25-7", abstract = "{Denne rapporten er utarbeidet av Center for Resilient Networks and Applications (CRNA), som er en del av Simula Metropolitan Center for Digital Engineering. CRNA driver grunnleggende forskning innen robusthet og sikkerhet i nettverk med mandat og finansiering fra Samferdselsdepartementet. Senteret produserer en årlig rapport om tilstanden i norske mo- bilnett. Årets rapport er den sjette i rekken.}", url = "https://www.simula.no/sites/default/files/crna-2018_0.pdf", url.size = "25505425", url.md5 = "d8522bafed20dee2b12d953f28bb5222", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2019-07-17 09:14:06 CEST", note = "{ISBN} 978-82-92593-25-7" } @TechReport{ CRNA-Rapport2019, author = "Ahmed Mustafa Elmokashfi and Amund Kvalbein and Mikael Christiansson and Anas Saeed Al-Selwi and Thomas Dreibholz and Çise Mıdoğlu", title = "{Norske mobilnett i~2019 -- Tilstandsrapport fra Centre for Resilient Networks and Applications}", numpages = "50", day = "30", month = jun, year = "2020", institution = "Simula Metropolitan Center for Digital Engineering, Centre for Resilient Networks and Applications~(CRNA)", address = "Oslo/Norway", language = "norsk", isbn = "978-82-92593-28-4", abstract = "{Denne rapporten er utarbeidet av Center for Resilient Networks and Applications (CRNA), som er en del av Simula Metropolitan Center for Digital Engineering. CRNA driver grunn- leggende forskning innen robusthet og sikkerhet i nettverk med mandat og finansiering fra Kommunal- og moderniseringsdepartementet. Senteret produserer en årlig rapport om tilstanden i norske mobilnett. Årets rapport er den sjuende i rekken.}", url = "https://www.simula.no/sites/default/files/norske_mobilnett_i_2019_1.pdf", url.size = "19110197", url.md5 = "74325fa42c888b169941ffa0ae193227", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2020-07-01 10:47:37 CEST", note = "{ISBN} 978-82-92593-28-4" } @Misc{ Darmstadt2011, author = "Thomas Dreibholz", title = "{Multipath-Transfer mit dem Stream Control Transmission Protocol}", howpublished = "Invited Talk at Technische Universität Darmstadt, Multimedia Communications Lab", numpages = "24", day = "16", month = nov, year = "2011", address = "Darmstadt, Hessen/Germany", language = "english", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/SCTP/Paper/Darmstadt2011.pdf", url.size = "2145896", url.md5 = "438d0b3f6caab7b168c16a24eba97306", url.mime = "application/pdf", url.pagesize = "720 x 540 pts", url.checked = "2014-04-02 17:08:25 CEST", url.keywords = "SCTP" } @TechReport{ draft-coene-rserpool-applic-ipfix, author = "Thomas Dreibholz and Lode Coene and Phillip~T. Conrad", title = "{Reliable Server Pooling Applicability for IP Flow Information Exchange}", type = "Internet Draft", number = "draft-coene-rserpool-applic-ipfix-19", day = "5", month = mar, year = "2018", institution = "IETF, Individual Submission", language = "english", abstract = "{This document describes the applicability of the Reliable Server Pooling architecture to the IP Flow Information Exchange using the Aggregate Server Access Protocol~(ASAP) functionality of RSerPool only. Data exchange in IPFIX between the router and the data collector can be provided by a limited retransmission protocol.}", url = "https://tools.ietf.org/id/draft-coene-rserpool-applic-ipfix-19.txt", url.size = "15753", url.md5 = "35828fd1f23ed045d46ad09ae3233d6a", url.mime = "text/plain", url.checked = "2020-12-03 11:21:44 CET" } @TechReport{ draft-dreibholz-ipv4-flowlabel, author = "Thomas Dreibholz", title = "{An IPv4 Flowlabel Option}", type = "Internet Draft", number = "draft-dreibholz-ipv4-flowlabel-32", day = "9", month = sep, year = "2020", institution = "IETF, Individual Submission", language = "english", abstract = "{This draft defines an IPv4 option containing a flowlabel that is compatible to IPv6. It is required for simplified usage of IntServ and interoperability with IPv6.}", url = "https://tools.ietf.org/id/draft-dreibholz-ipv4-flowlabel-32.txt", url.size = "18586", url.md5 = "190d6273e0d0f410885a4b3460b211aa", url.mime = "text/plain", url.checked = "2020-12-03 11:21:42 CET" } @TechReport{ draft-dreibholz-mptcp-nornet-experience, author = "Thomas Dreibholz and Simone Ferlin and Özgü Alay and Ahmed Mustafa Elmokashfi and Ioana Alexandrina Livadariu and Xing Zhou", title = "{MPTCP Experiences in the NorNet Testbed}", type = "Internet Draft", number = "draft-dreibholz-mptcp-nornet-experience-05", day = "3", month = dec, year = "2019", institution = "IETF, Individual Submission", language = "english", abstract = "{This document collects some experiences of Multi-Path TCP~(MPTCP) evaluations in the NorNet testbed.}", url = "https://tools.ietf.org/id/draft-dreibholz-mptcp-nornet-experience-05.txt", url.size = "26033", url.md5 = "84e3873814b160ac557ccb4db7faca35", url.mime = "text/plain", url.checked = "2020-12-03 11:21:41 CET" } @TechReport{ draft-dreibholz-rserpool-applic-distcomp, author = "Thomas Dreibholz", title = "{Applicability of Reliable Server Pooling for Real-Time Distributed Computing}", type = "Internet Draft", number = "draft-dreibholz-rserpool-applic-distcomp-29", day = "9", month = sep, year = "2020", institution = "IETF, Individual Submission", language = "english", abstract = "{This document describes the applicability of the Reliable Server Pooling architecture to manage real-time distributed computing pools and access the resources of such pools.}", url = "https://tools.ietf.org/id/draft-dreibholz-rserpool-applic-distcomp-29.txt", url.size = "19422", url.md5 = "2b93e03a8c45909ba3922d661c13c9de", url.mime = "text/plain", url.checked = "2020-12-03 11:21:42 CET" } @TechReport{ draft-dreibholz-rserpool-applic-mobility, author = "Thomas Dreibholz and Jobin Pulinthanath", title = "{Applicability of Reliable Server Pooling for SCTP-Based Endpoint Mobility}", type = "Internet Draft", number = "draft-dreibholz-rserpool-applic-mobility-28", day = "9", month = sep, year = "2020", institution = "IETF, Individual Submission", language = "english", abstract = "{This document describes a novel mobility concept based on a combination of SCTP with Dynamic Address Reconfiguration extension and Reliable Server Pooling~(RSerPool).}", url = "https://tools.ietf.org/id/draft-dreibholz-rserpool-applic-mobility-28.txt", url.size = "16861", url.md5 = "0a74886c83562d548cf8f60350f61ddf", url.mime = "text/plain", url.checked = "2020-12-03 11:21:43 CET" } @TechReport{ draft-dreibholz-rserpool-asap-hropt, author = "Thomas Dreibholz", title = "{Handle Resolution Option for ASAP}", type = "Internet Draft", number = "draft-dreibholz-rserpool-asap-hropt-27", day = "9", month = sep, year = "2020", institution = "IETF, Individual Submission", language = "english", abstract = "{This document describes the Handle Resolution option for the ASAP protocol.}", url = "https://tools.ietf.org/id/draft-dreibholz-rserpool-asap-hropt-27.txt", url.size = "13676", url.md5 = "2328543e3dd3f4f5175583ce8004ce98", url.mime = "text/plain", url.checked = "2020-12-03 11:21:43 CET" } @TechReport{ draft-dreibholz-rserpool-delay, author = "Thomas Dreibholz and Xing Zhou", title = "{Definition of a Delay Measurement Infrastructure and Delay-Sensitive Least-Used Policy for Reliable Server Pooling}", type = "Internet Draft", number = "draft-dreibholz-rserpool-delay-26", day = "9", month = sep, year = "2020", institution = "IETF, Individual Submission", language = "english", abstract = "{This document contains the definition of a delay measurement infrastructure and a delay-sensitive Least-Used policy for Reliable Server Pooling.}", url = "https://tools.ietf.org/id/draft-dreibholz-rserpool-delay-26.txt", url.size = "18084", url.md5 = "e50c369e44c80c3908730597b33a4103", url.mime = "text/plain", url.checked = "2020-12-03 11:21:44 CET" } @TechReport{ draft-dreibholz-rserpool-enrp-takeover, author = "Thomas Dreibholz and Xing Zhou", title = "{Takeover Suggestion Flag for the ENRP Handle Update Message}", type = "Internet Draft", number = "draft-dreibholz-rserpool-enrp-takeover-24", day = "9", month = sep, year = "2020", institution = "IETF, Individual Submission", language = "english", abstract = "{This document describes the Takeover Suggestion Flag for the ENRP_HANDLE_UPDATE message of the ENRP protocol.}", url = "https://tools.ietf.org/id/draft-dreibholz-rserpool-enrp-takeover-24.txt", url.size = "14434", url.md5 = "fc2071f218603da35e72e56ff42a86dc", url.mime = "text/plain", url.checked = "2020-12-03 11:21:43 CET" } @TechReport{ draft-dreibholz-rserpool-nextgen-ideas, author = "Thomas Dreibholz", title = "{Ideas for a Next Generation of the Reliable Server Pooling Framework}", type = "Internet Draft", number = "draft-dreibholz-rserpool-nextgen-ideas-14", day = "9", month = sep, year = "2020", institution = "IETF, Individual Submission", language = "english", abstract = "{This document collects some idea for a next generation of the Reliable Server Pooling framework.}", url = "https://tools.ietf.org/id/draft-dreibholz-rserpool-nextgen-ideas-14.txt", url.size = "15226", url.md5 = "9aa7f4e70ed3c3c318ccc636d1fade9c", url.mime = "text/plain", url.checked = "2020-12-03 11:21:43 CET" } @TechReport{ draft-dreibholz-rserpool-score, author = "Thomas Dreibholz and Michael Tüxen", title = "{Reliable Server Pooling~(RSerPool) Bakeoff Scoring}", type = "Internet Draft", number = "draft-dreibholz-rserpool-score-27", day = "9", month = sep, year = "2020", institution = "IETF, Individual Submission", language = "english", abstract = "{This memo describes some of the scoring to be used in the testing of Reliable Server Pooling protocols ASAP and ENRP at upcoming bakeoffs.}", url = "https://tools.ietf.org/id/draft-dreibholz-rserpool-score-27.txt", url.size = "19455", url.md5 = "67a2fc17d0fb900cd38d13d57d6a1da3", url.mime = "text/plain", url.checked = "2020-12-03 11:21:42 CET" } @TechReport{ draft-dreibholz-taps-neat-socketapi, author = "Thomas Dreibholz", title = "{NEAT Sockets API}", type = "Internet Draft", number = "draft-dreibholz-taps-neat-socketapi-07", day = "28", month = jul, year = "2020", institution = "IETF, Individual Submission", language = "english", abstract = "{This document describes a BSD Sockets-like API on top of the callback-based NEAT User API. This facilitates porting existing applications to use a subset of NEAT's functionality.}", url = "https://tools.ietf.org/id/draft-dreibholz-taps-neat-socketapi-07.txt", url.size = "58177", url.md5 = "2fedff3bdf6923e5e062ce8554c6b4f3", url.mime = "text/plain", url.checked = "2020-12-03 11:22:14 CET" } @TechReport{ draft-dreibholz-tsvwg-sctp-nextgen-ideas, author = "Thomas Dreibholz", title = "{Ideas for a Next Generation of the Stream Control Transmission Protocol~(SCTP)}", type = "Internet Draft", number = "draft-dreibholz-tsvwg-sctp-nextgen-ideas-12", day = "9", month = sep, year = "2020", institution = "IETF, Individual Submission", language = "english", abstract = "{This document collects some ideas for a next generation of the Stream Control Transmission Protocol~(SCTP) for further discussion. It is a result of lessons learned from more than one decade of SCTP deployment.}", url = "https://tools.ietf.org/id/draft-dreibholz-tsvwg-sctp-nextgen-ideas-12.txt", url.size = "16520", url.md5 = "1365b2ad94879c5aa03fb80ea27673c7", url.mime = "text/plain", url.checked = "2020-12-03 11:21:47 CET" } @TechReport{ draft-dreibholz-tsvwg-sctpsocket-multipath, author = "Thomas Dreibholz and Martin Becke and Hakim Adhari", title = "{SCTP Socket API Extensions for Concurrent Multipath Transfer}", type = "Internet Draft", number = "draft-dreibholz-tsvwg-sctpsocket-multipath-21", day = "9", month = sep, year = "2020", institution = "IETF, Individual Submission", language = "english", abstract = "{This document describes extensions to the SCTP sockets API for configuring the CMT-SCTP and CMT/RP-SCTP extensions.}", url = "https://tools.ietf.org/id/draft-dreibholz-tsvwg-sctpsocket-multipath-21.txt", url.size = "12846", url.md5 = "c9c03ed0f4366fe9704e673c5e1f87fc", url.mime = "text/plain", url.checked = "2020-12-03 11:21:41 CET" } @TechReport{ draft-dreibholz-tsvwg-sctpsocket-sqinfo, author = "Thomas Dreibholz and Robin Seggelmann and Martin Becke", title = "{Sender Queue Info Option for the SCTP Socket API}", type = "Internet Draft", number = "draft-dreibholz-tsvwg-sctpsocket-sqinfo-21", day = "9", month = sep, year = "2020", institution = "IETF, Individual Submission", language = "english", abstract = "{This document describes an extension to the SCTP sockets API for querying information about the sender queue.}", url = "https://tools.ietf.org/id/draft-dreibholz-tsvwg-sctpsocket-sqinfo-21.txt", url.size = "14147", url.md5 = "def9ebe15658a37c609eb83dbdeb0abe", url.mime = "text/plain", url.checked = "2020-12-03 11:21:41 CET" } @TechReport{ draft-dreibholz-vnfpool-rserpool-applic, author = "Thomas Dreibholz and Michael Tüxen and Melinda Shore and Ning Zong", title = "{The Applicability of Reliable Server Pooling~(RSerPool) for Virtual Network Function Resource Pooling~(VNFPOOL)}", type = "Internet Draft", number = "draft-dreibholz-vnfpool-rserpool-applic-09", day = "11", month = sep, year = "2019", institution = "IETF, Individual Submission", language = "english", abstract = "{This draft describes the application of Reliable Server Pooling~(RSerPool) for Virtual Network Function Resource Pooling~(VNFPOOL).}", url = "https://tools.ietf.org/id/draft-dreibholz-vnfpool-rserpool-applic-09.txt", url.size = "35756", url.md5 = "0bb6e37a9e2bdfc8ef26944f8871b28b", url.mime = "text/plain", url.checked = "2020-12-03 11:21:47 CET" } @TechReport{ draft-hohendorf-secure-sctp, author = "Carsten Hohendorf and Esbold Unurkhaan and Thomas Dreibholz", title = "{Secure SCTP}", type = "Internet Draft", number = "draft-hohendorf-secure-sctp-30", day = "9", month = sep, year = "2020", institution = "IETF, Individual Submission", language = "english", abstract = "{This document explains the reason for the integration of security functionality into SCTP, and gives a short description of S-SCTP and its services. S-SCTP is fully compatible with SCTP defined in RFC4960, it is designed to integrate cryptographic functions into SCTP.}", url = "https://tools.ietf.org/id/draft-hohendorf-secure-sctp-30.txt", url.size = "92159", url.md5 = "6d80b4108d3025c92e790f6f3998fae4", url.mime = "text/plain", url.checked = "2020-12-03 11:21:45 CET" } @TechReport{ draft-ietf-rserpool-api, author = "Aron~J. Silverton and Qiaobing Xie and Michael Tüxen and Thomas Dreibholz", title = "{Reliable Server Pooling Sockets API Extensions}", type = "Internet Draft", number = "draft-ietf-rserpool-api-00", day = "17", month = oct, year = "2005", institution = "IETF", language = "english", abstract = "{This document describes a sockets-like API for the Reliable Server Pooling~(RSerPool) protocol suite. This API provides applications within an RSerPool enabled system with a reliable communications layer via a highly-available socket interface~(rsp_socket).}", url = "https://tools.ietf.org/id/draft-ietf-rserpool-api-00.txt", url.size = "18779", url.md5 = "d9fb76046a89ae415ba233da5a220903", url.mime = "text/plain", url.checked = "2014-04-12 19:18:33 CEST" } @TechReport{ draft-tuexen-tsvwg-sctp-multipath, author = "Paul~D. Amer and Martin Becke and Thomas Dreibholz and Nasif Ekiz and Janardhan~R. Iyengar and Preethi Natarajan and Randall~R. Stewart and Michael Tüxen", title = "{Load Sharing for the Stream Control Transmission Protocol~(SCTP)}", type = "Internet Draft", number = "draft-tuexen-tsvwg-sctp-multipath-20", day = "28", month = jul, year = "2020", institution = "IETF, Individual Submission", language = "english", abstract = "{The Stream Control Transmission Protocol~(SCTP) supports multi-homing for providing network fault tolerance. However, mainly one path is used for data transmission. Only timer-based retransmissions are carried over other paths as well. This document describes how multiple paths can be used simultaneously for transmitting user messages.}", url = "https://tools.ietf.org/id/draft-tuexen-tsvwg-sctp-multipath-20.txt", url.size = "62970", url.md5 = "1329e42271fa5dd196fdef2cd4b7b8db", url.mime = "text/plain", url.checked = "2020-12-03 11:21:48 CET" } @MastersThesis{ Dre2001, author = "Thomas Dreibholz", title = "{Management of Layered Variable Bitrate Multimedia Streams over DiffServ with Apriori Knowledge}", type = "Masters Thesis", numpages = "204", day = "20", month = feb, year = "2001", school = "University of Bonn, Institute for Computer Science", language = "english", urn = "urn:nbn:de:hbz:464-20120416-095753-8", keywords = "Multimedia, Quality of Service, Layered Transmission, DiffServ, A Priori Knowledge", abstract = "{The Internet is developing with a very high speed. Just a few years ago, its main applications were file transfer and e-mail access, all based on the best effort TCP/IP service over quite slow links. With the quickly growing deployment of high-speed Internet accesses, there is a growing demand for also using the Internet in application scenarios like real-time multimedia streaming, particularly for audio and video on demand services. However, such multimedia applications do not only require sufficient bandwidth. They have stricter quality of service demands, like e.g.\ an upper bound on the transfer delay to ensure interactivity for their users. In the context of this thesis, a system for the cost-efficient transfer of variable bitrate multimedia streams over Differentiated Services~(DiffServ) is presented and evaluated. This system supports layered transmission, i.e.\ streams may be partitioned into sub-streams denoted as layers (e.g.\ a video layer and an audio layer). Distinct layers may have different priorities as well as quality of service requirements and may therefore use different DiffServ classes for data transmission. Also, the streams may be scalable, i.e.\ the quality of the transferred media may be decreased in order to reduce the bandwidth requirements when bandwidth becomes scarce. Particularly, the system makes use of the fact that media files in e.g.\ a video on demand library can be analyzed a priorily. The information that is computed during the offline analysis is used to realize a dynamic and cost-efficient transport of layer data over different DiffServ classes. Furthermore, the system applies an adaptive buffering to smooth the flows -- in order to save bandwidth -- while also taking care of the delay constraints.}", url = "https://duepublico.uni-duisburg-essen.de/servlets/DerivateServlet/Derivate-29936/Dre2001.pdf", url.size = "62044170", url.md5 = "479cc723184d88dbce6864ab93f9b6c0", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2015-05-06 22:14:24 CEST" } @PhDThesis{ Dre2006, author = "Thomas Dreibholz", title = "{Reliable Server Pooling -- Evaluation, Optimization and Extension of a Novel IETF Architecture}", numpages = "267", day = "7", month = mar, year = "2007", school = "University of Duisburg-Essen, Faculty of Economics, Institute for Computer Science and Business Information Systems", language = "english", urn = "urn:nbn:de:hbz:465-20070308-164527-0", keywords = "Reliable Server Pooling~(RSerPool), Evaluation, Optimization, Extension", abstract = "{The Reliable Server Pooling (RSerPool) architecture currently under standardization by the IETF RSerPool Working Group is an overlay network framework to provide server replication and session failover capabilities to applications using it. These functionalities as such are not new, but their combination into one generic, application-independent framework is. Initial goal of this thesis is to gain insight into the complex RSerPool mechanisms by performing experimental and simulative proof-of-concept tests. The further goals are to systematically validate the RSerPool architecture and its protocols, provide improvements and optimizations where necessary and propose extensions if useful. Based on these evaluations, recommendations to implementers and users of RSerPool should be provided, giving guidelines for the tuning of system parameters and the appropriate configuration of application scenarios. In particular, it is also a goal to transfer insights, optimizations and extensions of the RSerPool protocols from simulation to reality and also to bring the achievements from research into application by supporting and contributing relevant results to the IETF's ongoing RSerPool standardization process. To achieve the described goals, a prototype implementation as well as a simulation model are designed and realized at first. Using a generic application model and appropriate performance metrics, the performance of RSerPool systems in failure-free and server failure scenarios is systematically evaluated in order to identify critical parameter ranges and problematic protocol behaviour. Improvements developed as result of these performance analyses are evaluated and finally contributed into the standardization process of RSerPool.}", url = "https://duepublico.uni-duisburg-essen.de/servlets/DerivateServlet/Derivate-16326/Dre2006_final.pdf", url.size = "9297866", url.md5 = "acdd102ebd0775ca5de523ec5710d800", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2015-05-06 22:13:59 CEST" } @PhDThesis{ Dre2012, author = "Thomas Dreibholz", title = "{Evaluation and Optimisation of Multi-Path Transport using the Stream Control Transmission Protocol}", type = "Habilitation Treatise", numpages = "264", day = "13", month = mar, year = "2012", school = "University of Duisburg-Essen, Faculty of Economics, Institute for Computer Science and Business Information Systems", language = "english", urn = "urn:nbn:de:hbz:464-20120315-103208-1", keywords = "Stream Control Transmission Protocol~(SCTP), Multi-Path Transport, Dissimilar Paths, Fairness, Evaluation, Optimisation", abstract = "{The Stream Control Transmission Protocol~(SCTP) as defined in RFC~4960 is an advanced Transport Layer protocol that provides support for multi-homing. That is, SCTP endpoints may simultaneously use multiple Network Layer addresses, which allows to connect the endpoints to multiple networks for redundancy purposes. However, for the transfer of user data, only one of the possible paths is currently used at a time. All other paths remain as backup and are only used for retransmissions. Clearly, the existence of multiple paths has led to the idea of applying load sharing among the paths. An extension to SCTP -- denoted as Concurrent Multipath Transfer~(CMT) -- realises this load sharing functionality. While this approach works well for similar paths, i.e.\ paths having similar characteristics regarding bandwidths, bit error rates and delays, the use of dissimilar paths does not work that neatly. In this thesis, the issues of dissimilar paths for CMT-based load sharing will be demonstrated first. The reasons for these issues will be identified and solutions proposed. These solutions will be evaluated in simulations, as well as partially also in a real-world Internet testbed setup, in order to show their effectiveness. In particular, it will be shown that a combination of multiple mechanisms is necessary to make CMT work as expected under a wide range of network and system parameters. Furthermore, the fairness of CMT-based transport -- in concurrency to classic non-CMT flows -- will be analysed. The usage of plain CMT leads to an overly aggressive bandwidth occupation on so-called shared bottlenecks. As a countermeasure, the idea of Resource Pooling will be utilised. For this purpose, two new and one adapted congestion control approach -- all based on the Resource Pooling principle -- will be introduced and examined in similar as well as dissimilar path setups, in order to show how to fairly deploy CMT transport in the Internet. The results of this work have also been contributed to the ongoing IETF~standardisation process of SCTP and its extensions.}", url = "https://duepublico.uni-duisburg-essen.de/servlets/DerivateServlet/Derivate-29737/Dre2012_final.pdf", url.size = "37661345", url.md5 = "add34f0b780cb35b7ee1f963ea85e59c", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2015-05-06 22:13:53 CEST" } @Misc{ Dre2012-FutureInternet, author = "Thomas Dreibholz", title = "{Konzepte für das Future Internet aus der Netzperspektive}", howpublished = "Habilitation Talk", numpages = "49", day = "13", month = mar, year = "2012", school = "University of Duisburg-Essen, Faculty of Economics, Institute for Computer Science and Business Information Systems", language = "german", urn = "urn:nbn:de:hbz:464-20120404-135350-0", keywords = "Future Internet, Habilitationsvortrag", abstract = "{Vielen seiner Benutzer erscheint das Internet als neuartig und hochmodern. Seine Grundlagen jedoch sind keineswegs neu, sondern basieren auf mittlerweile fast 40~Jahre alten Ideen. Dienste werden mittels eines geschichteten, hierarchischen Protokollstacks realisiert, bei welchem eine Interaktion nicht-benachbarter Schichten nicht vorgesehen ist. Dieser starre Aufbau macht bereits das Anpassen der Internet-Architektur an die Anforderungen der heutigen Anwendungen – wie etwa File Sharing, Videotelefonie und mobile Endgeräte – kompliziert. Die großen Herausforderungen des zukünftigen Internets – welches als das Future Internet bezeichnet wird – mit Anwendungsszenarien wie Cloud Computing, Internet of Things, Sensornetzwerken und vielen weiteren – erfordern jedoch noch weitaus umfangreichere Anpassungen. Zudem ist eine große Flexibilität erforderlich, um auch weiteren – heute noch nicht absehbaren – Anforderungen gerecht zu werden. Im Rahmen dieses Habilitationsvortrages wird zunächst kurz auf die Probleme des aktuellen Internets eingegangen sowie die Herausforderungen des Future Internets vorgestellt. Im Anschluss daran wird eine Auswahl der für den Übergang zum Future Internet möglichen evolutionären sowie revolutionären Ansätze vorgestellt. Der Schwerpunkt liegt hierbei auf den noch relativ neuen – und in der Forschung momentan sehr aktiv diskutierten – revolutionären Ansätzen, welche mit der Idee des sogenannten Clean Slate einen vollständigen Neuansatz anstreben. Hierbei werden die Ansätze der Funktionalen Komposition, des Content-Centric Networking sowie der Virtualisierung von Netzwerken vorgestellt. Zum Schluss wird dann auf die Frage eingegangen, wie eine Nutzung der vorgestellten Ansätze in der Praxis möglich ist und welche der aktuell in Diskussion befindlichen Ansätze sich in Zukunft voraussichtlich durchsetzen werden.}", url = "https://duepublico.uni-duisburg-essen.de/servlets/DerivateServlet/Derivate-29756/Habilitationsvortrag.pdf", url.size = "5915045", url.md5 = "bd09fd9172fccb9edd4ee88299038f47", url.mime = "application/pdf", url.pagesize = "720 x 540 pts", url.checked = "2015-05-06 22:13:55 CEST" } @TechReport{ DSV00, author = "Thomas Dreibholz and Jan Selzer and Simon Vey", title = "{Echtzeit-Audioübertragung mit QoS-Management in einem DiffServ-Szenario}", type = "Projektseminararbeit", numpages = "171", day = "14", month = aug, year = "2000", institution = "Universität Bonn, Institut für Informatik", language = "german", keywords = "Quality of Service~(QoS), Real-Time, Audio, DiffServ, RTP Audio", url = "https://www.uni-due.de/~be0001/rn/DSV00.pdf", url.size = "4425350", url.md5 = "9aed1f5be5c1badcd41efe3e414614c0", url.mime = "application/pdf", url.pagesize = "612 x 792 pts (letter)", url.checked = "2014-04-02 17:29:08 CEST" } @Article{ E-Teaching2010, author = "Daniel Biella and Dieter Huth and Michael Striewe and Michael Kohnen and Thomas Dreibholz and Martin Becke", title = "{Erfahrungsbericht: Zur Organisation und Implementierung PC-gestützter Prüfungen an der Universität Duisburg-Essen}", journal = "{E-Teaching.org}", numpages = "17", day = "25", month = mar, year = "2010", language = "ngerman", keywords = "L-PLUS, E-Assessment", abstract = "{Dieser Artikel beschreibt die technischen, organisatorischen und inhaltlichen Herausforderungen, die bei der Organisation und Implementierung einer Plattform für PC-gestützte Prüfungen an der Universität Duisburg-Essen zu bewältigen waren. Anhand zweier Szenarien aus dem Wintersemester 2009/10 wird der Umstieg von papiergestützten Prüfungen auf PC-gestützte Prüfungen sowie die Möglichkeit der Prüfung komplexer Aufgabenstellungen beispielhaft erläutert.}", url = "https://www.e-teaching.org/praxis/erfahrungsberichte/10-03-25_PC-Hall_Biella-Huth-Striewe-Kohnen-Dreibholz-Becke.pdf", url.size = "1407513", url.md5 = "52856bad6dd8ce266a244a56ed9272e2", url.mime = "application/pdf", url.pagesize = "594.96 x 842.04 pts (A4)", url.checked = "2017-11-05 19:28:42 CET" } @InProceedings{ EuCNC2020, author = "Min Xie and Joan Sebastià Pujol-Roig and Foivos Michelinakis and Thomas Dreibholz and Carmen Guerrero and Adrián Gallego Sánchez and Wint Yi Poe and Yue Wang and Ahmed Mustafa Elmokashfi", title = "{AI-Driven Closed-Loop Service Assurance with Service Exposures}", booktitle = "{Proceedings of the 29th IEEE European Conference on Networks and Communications~(EuCNC)}", numpages = "6", day = "17", month = jun, year = "2020", address = "Dubrovnik, Dubrovnik-Neretva/Croatia", language = "english", isbn = "978-1-7281-4355-2", doi = "10.1109/EuCNC48522.2020.9200943", keywords = "Service Assurance, Service Exposure, AI", abstract = "{Artificial Intelligence~(AI) is widely applied in mobile and wireless networks to enhance network operation and service management. Advanced AI mechanisms often require high level of network service exposure in order to access data from as many network elements as possible and execute the AI recommended outcomes into the networks. However, in practice, it is not always feasible to expose the network services to 3rd parties or customers with AI ambitions. Considering that service assurance~(SA) is a major area to which AI is applied, this paper describes how a closed-loop SA architecture is associated with the service exposure model in the 5G networks with network slicing. Then we investigate the impact and implication of service exposure on SA. Finally, a set of experiment results are provided to demonstrate the trade-off relationship between the AI ambition and the exposure level in SA.}", url = "https://www.simula.no/file/eucnc2020pdf/download", url.size = "730106", url.md5 = "b4a8e1df31b81c8c017ab352210a235d", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2020-09-16 20:28:51 CEST", note = "{ISBN} 978-1-7281-4355-2" } @InProceedings{ Euromicro2005, author = "Thomas Dreibholz and Erwin Paul Rathgeb", title = "{RSerPool -- Providing Highly Available Services using Unreliable Servers}", booktitle = "{Proceedings of the 31st IEEE EuroMirco Conference on Software Engineering and Advanced Applications}", pages = "396--403", numpages = "8", day = "2", month = sep, year = "2005", address = "Porto/Portugal", language = "english", isbn = "0-7695-2431-1", doi = "10.1109/EUROMICRO.2005.50", keywords = "Reliable Server Pooling~(RSerPool), Server Pooling, Load Distribution, Performance Analysis", abstract = "{The Reliable Server Pooling~(RSerPool) protocol suite currently under standardization by the IETF is designed to build systems providing highly available services by mechanisms and protocols for establishing, configuring, accessing and monitoring pools of server resources. Using RSerPool, critical infrastructure services like SS7 telecommunication systems, e-commerce transaction processing or distributed computing can be provided highly available using pools of unreliable servers. In this paper, we first give an overview of the RSerPool framework. In the following, we quantitatively show performance impacts of varying RSerPool parameters to failover handling, server selection efficiency and overhead traffic under server failure conditions.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/EuroMicro2005.pdf", url.size = "438731", url.md5 = "79a941c68a985c70e1ff7ea52ab4d344", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:17 CEST", note = "{ISBN} 0-7695-2431-1" } @InProceedings{ Euromicro2007, author = "Thomas Dreibholz and Xing Zhou and Erwin Paul Rathgeb", title = "{A Performance Evaluation of RSerPool Server Selection Policies in Varying Heterogeneous Capacity Scenarios}", booktitle = "{Proceedings of the 33rd IEEE EuroMirco Conference on Software Engineering and Advanced Applications}", pages = "157--164", numpages = "8", day = "29", month = aug, year = "2007", address = "Lübeck, Schleswig-Holstein/Germany", language = "english", isbn = "0-7695-2977-1", doi = "10.1109/EUROMICRO.2007.9", keywords = "RSerPool, Redundancy, Server Selection, Heterogeneous Pools, Performance Analysis", abstract = "{Reliable Server Pooling~(RSerPool) is a protocol framework for server redundancy and session failover, currently still under standardization by the IETF RSerPool WG. Server redundancy influences load distribution and load balancing, which both are important for the performance of RSerPool systems. Especially, a good load balancing strategy is crucial if the servers of a pool are heterogeneous. Some research on this subject has already been performed, but a detailed analysis on the question of how to make best use of additional capacity in dynamic pools is still open. Therefore, the aim of this paper is, after an outline of the RSerPool framework, to simulatively examine the performance of RSerPool server selection strategies in scenarios of pools with varying server heterogeneity. In particular, this paper examines and evaluates a simple but very effective new policy, achieving a significant performance improvement in such situations.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/EuroMicro2007.pdf", url.size = "391426", url.md5 = "b95e9d21968c88bc50bd4d79ea7aac98", url.mime = "application/pdf", url.pagesize = "612 x 792 pts (letter)", url.checked = "2014-04-02 17:08:18 CEST", note = "{ISBN} 0-7695-2977-1" } @InProceedings{ EuroView2007, author = "Thomas Dreibholz and Erwin Paul Rathgeb", title = "{Towards the Future Internet -- A Survey of Challenges and Solutions in Research and Standardization}", booktitle = "{Proceedings of the 7th Joint EuroFGI and ITG Workshop on Visions of Future Network Generations~(EuroView)}", numpages = "2", day = "23", month = jul, year = "2007", address = "Würzburg, Bayern/Germany", language = "english", note = "Poster Presentation", keywords = "Reliable Server Pooling, SCTP, IPv6, Future Internet", abstract = "{The basic intention for the development of the Internet has been the simple and inexpensive interconnection of nodes to provide services like file download or e-mail. However, due to its huge growth and popularity, the classical protocols -- which still constitute the basis of today's Internet -- have reached their limits of scalability and functionality. Lots of research has been performed in order to overcome these restrictions. On our poster, we would like to give a survey of the challenges on Network, Transport, Session and Application Layer, as well as an outline of solutions which will constitute -- from the current perspective in~2007 and with regard to the standardization progress of the IETF -- the basis of the Internet in~2022.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/EuroView2007.pdf", url.size = "1708229", url.md5 = "b8be1e85ccd586b858f2b5098a599968", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:18 CEST" } @Misc{ EuroView2010-SIGMultipath, author = "Thomas Dreibholz", title = "{Buffer Splitting for Efficient Transport over Asymmetric Paths}", howpublished = "Talk at the SIG Multipath Meeting during the 10th Joint EuroFGI and ITG Workshop on Visions of Future Network Generations~(EuroView)", numpages = "11", day = "4", month = aug, year = "2010", address = "Würzburg, Bayern/Germany", language = "english", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/SCTP/Paper/EuroView2010-SIGMultiPath-SCTP.pdf", url.size = "371177", url.md5 = "af684a42671409244ea97fa6518935f9", url.mime = "application/pdf", url.pagesize = "720 x 540 pts", url.checked = "2014-04-02 17:08:23 CEST", url.keywords = "SCTP" } @InProceedings{ EWNS2013-NorNet, author = "Thomas Dreibholz", title = "{The NorNet Project: A Research Platform for Robust and Secure Networks}", booktitle = "{Proceedings of the Essener Workshop zur Netzsicherheit~(EWNS)}", numpages = "2", day = "8", month = apr, year = "2013", address = "Essen, Nordrhein-Westfalen/Germany", language = "english", keywords = "NorNet, Testbed, Multi-Homing, Setup, Research", abstract = "{This talk gives an overview of the NorNet project, the new Internet testbed for multi-homed systems, and its research objectives.}", url = "https://www.simula.no/file/simulasimula1968pdf/download", url.size = "7479098", url.md5 = "3855ef4890e243dd180cc9f8abd745f6", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-12-12 18:13:58 CET" } @InProceedings{ FGCN2007-HsMgt, author = "Thomas Dreibholz and Erwin Paul Rathgeb", title = "{An Evaluation of the Pool Maintenance Overhead in Reliable Server Pooling Systems}", booktitle = "{Proceedings of the IEEE International Conference on Future Generation Communication and Networking~(FGCN)}", volume = "1", pages = "136--143", numpages = "8", day = "6", month = dec, year = "2007", address = "Jeju Island/South Korea", language = "english", isbn = "0-7695-3048-6", doi = "10.1109/FGCN.2007.62", keywords = "Reliable Server Pooling~(RSerPool), Server Pools, Handlespace Management, SCTP, Performance", abstract = "{Reliable Server Pooling~(RSerPool) is a protocol framework for server redundancy and session failover, currently still under standardization by the IETF RSerPool~WG. An important property of RSerPool is its lightweight architecture: server pool and session management can be realized with small CPU power and memory requirements. That is, RSerPool-based services can also be managed and provided by embedded systems. Currently, there has already been some research on the performance of the data structures managing server pools. But a generic, application-independent performance analysis -- in particular also including measurements in real system setups -- is still missing. Therefore, the aim of this paper is -- after an outline of the RSerPool framework, an introduction to the pool management procedures and a description of our pool management approach -- to first provide a detailed performance evaluation of the pool management structures themselves. Afterwards, the performance of a prototype implementation is analysed in order to evaluate its applicability under real network conditions.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/FGCN2007-HsMgt.pdf", url.size = "492902", url.md5 = "3f06ad92c93f4dcde961912cfe251b11", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:18 CEST", note = "{ISBN} 0-7695-3048-6" } @InProceedings{ FGCN2007-LoadBalancing, author = "Xing Zhou and Thomas Dreibholz and Erwin Paul Rathgeb", title = "{Evaluation of a Simple Load Balancing Improvement for Reliable Server Pooling with Heterogeneous Server Pools}", booktitle = "{Proceedings of the IEEE International Conference on Future Generation Communication and Networking~(FGCN)}", volume = "1", pages = "173--180", numpages = "8", day = "8", month = dec, year = "2007", address = "Jeju Island/South Korea", language = "english", isbn = "0-7695-3048-6", doi = "10.1109/FGCN.2007.119", keywords = "Reliable Server Pooling~(RSerPool), Redundancy, Load Balancing, Heterogeneous Pools, Performance Evaluation", abstract = "{The IETF is currently standardizing a light-weight protocol framework for server redundancy and session failover: Reliable Server Pooling~(RSerPool). It is the novel combination of ideas from different research areas into a single, resource-efficient and unified architecture. Server redundancy directly leads to the issues of load distribution and load balancing. Both are important and have to be considered for the performance of RSerPool systems. While there has already been some research on the server selection policies of RSerPool, an interesting question is still open: Is it possible to further improve the load balancing performance of the standard policies without modifying the policies -- which are well-known and widely supported -- themselves? Our approach places its focus on the session layer rather than the policies and simply lets servers reject inappropriately scheduled requests. Applying failover handling mechanisms of RSerPool, in this case, could choose a more appropriate server instead. In~[26], we have already shown that our approach is useful for homogeneous server pools. But is it also useful for heterogeneous pools? In this paper, we first present a short outline of the RSerPool framework. Afterwards, we analyse and evaluate the performance of our new approach for different server capacity distributions. Especially, we are also going to analyse the impact of RSerPool protocol and system parameters on the performance of the server selection functionalities as well as on the overhead.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/FGCN2007-LoadBalancing.pdf", url.size = "466524", url.md5 = "6967acc9a600841ae38313c55605d36c", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:18 CEST", note = "{ISBN} 0-7695-3048-6" } @InProceedings{ FGCN2008, author = "Wenyu Zhu and Thomas Dreibholz and Erwin Paul Rathgeb and Xing Zhou", title = "{A Scalable QoS Device for Broadband Access to Multimedia Services}", booktitle = "{Proceedings of the IEEE International Conference on Future Generation Communication and Networking~(FGCN)}", volume = "1", pages = "343--348", numpages = "6", day = "13", month = dec, year = "2008", address = "Sanya, Hainan/People's Republic of China", language = "english", isbn = "978-0-7695-3431-2", doi = "10.1109/FGCN.2008.124", keywords = "Quality of Service~(QoS), Broadband Internet, Flow Routing, Multimedia, Intelligent Packet Discard", abstract = "{This paper presents the performance evaluation of a novel network device being located in network edge nodes. It provides a solution for relaxed QoS guarantees to certain flows on a congested link by focussing packet discard on selected flows. However, unlike IntServ solutions -- e.g.\ RSVP -- our approach only requires minimal signalling and therefore provides both efficiency and scalability. In this paper, we first describe the ideas of our QoS device and then provide a simulative performance analysis for different multimedia flow scenarios.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/FlowRouting/Paper/FGCN2008.pdf", url.size = "520560", url.md5 = "4aeb2680d2d15cb85f53961ff16c707c", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:19 CEST", note = "{ISBN} 978-0-7695-3431-2" } @InProceedings{ FutureInternet2008, author = "Thomas Dreibholz and Erwin Paul Rathgeb", title = "{Towards the Future Internet -- An Overview of Challenges and Solutions in Research and Standardization}", booktitle = "{Proceedings of the 2nd GI/ITG KuVS Workshop on the Future Internet}", numpages = "3", day = "11", month = nov, year = "2008", address = "Karlsruhe, Baden-Württemberg/Germany", language = "english", keywords = "Reliable Server Pooling~(RSerPool), Stream Control Transmission Protocol~(SCTP), IPv6, Future Internet", abstract = "{The basic intention for the development of the Internet has been the simple and inexpensive interconnection of nodes to provide services like file download or e-mail. However, due to its huge growth and popularity, the classical protocols -- which still constitute the basis of today's Internet -- have reached their limits of scalability and functionality. Lots of research has been performed in order to overcome these restrictions. In our presentation, we would like to give a survey of the challenges on Network, Transport, Session and Application Layer, as well as an outline of solutions which will constitute -- from the current perspective in~2008 and with regard to the standardization progress of the IETF -- the basis of the Internet in the year~2020.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/FutureInternet2008.pdf", url.size = "1682121", url.md5 = "087b79294d286a6ad2ac31b62a86f8a9", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:19 CEST" } @InProceedings{ FutureInternet2010, author = "Thomas Dreibholz and Martin Becke and Christian Henke and Erwin Paul Rathgeb", title = "{An Approach for Transferring an End-to-End Transport Service into a Functional Building Block Structure}", booktitle = "{Proceedings of the 5th GI/ITG KuVS Workshop on the Future Internet}", numpages = "3", day = "9", month = jun, year = "2010", address = "Stuttgart, Baden-Württemberg/Germany", language = "english", keywords = "Transport, Multi-Path, Functional Building Blocks, Cross-Layer Optimization, Future Internet", abstract = "{Current network stacks based on the classic OSI layered reference model are restricted and inflexible, which makes the addition and deployment of new features difficult. Operating systems offer an interface for the Transport Layer functionalities to applications. The usage of this interface is very widespread, making it useful to maintain this interface. However, the layered structure should be replaced. In this paper, we propose our approach for breaking up the functionalities of the OSI Transport Layer into the concept so called functional building blocks. Each functional building block provides a particular service, which -- in interaction with the other functional building blocks -- is able to provide a service similar to the classic OSI Transport Layer. The concept allows for easy removal, replacement or addition of existing and new functional building blocks to adapt the service to state-of-the-art and future requirements, particularly including multi-path transport and QoS.}", url = "https://web.archive.org/web/20171101093204/http://www.future-internet.org/files/2010/Folien/Abstract_Dreibholz2.pdf", url.size = "152373", url.md5 = "e39b36008b54d24b3dfb391ac8b3eeb5", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2018-06-08 16:39:22 CEST" } @Misc{ Geilo2013-NorNetCore, author = "Thomas Dreibholz", title = "{An Overview of NorNet Core}", howpublished = "Invited Talk at the Geilo Siminar of the Simula Research Laboratory, Network Systems Group", numpages = "19", day = "9", month = mar, year = "2013", address = "Geilo, Buskerud/Norway", language = "english", url = "https://www.simula.no/file/simulasimula1948pdf/download", url.size = "19501529", url.md5 = "f18d7d4adda2c7dde085570f60b56d49", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2014-12-12 18:13:56 CET", url.keywords = "NorNet, NorNet Core, Testbed, Overview" } @InProceedings{ GENIWorkshop2011, author = "Martin Becke and Thomas Dreibholz", title = "{Multi-Path Transport}", booktitle = "{Proceedings of the 1st DFG/NSF Doctoral Consortium}", numpages = "1", day = "13", month = mar, year = "2011", address = "San Juan/Puerto Rico", language = "english", note = "Poster Presentation", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/SCTP/Paper/GENIWorkshop2011.pdf", url.size = "1699006", url.md5 = "7ddf90624d681ac2fd4da0882e5780cc", url.mime = "application/pdf", url.pagesize = "2160 x 2880 pts", url.checked = "2014-04-02 17:08:23 CEST" } @InProceedings{ GI2015, author = "Ioana Alexandrina Livadariu and Simone Ferlin and Özgü Alay and Thomas Dreibholz and Amogh Dhamdhere and Ahmed Mustafa Elmokashfi", title = "{Leveraging the IPv4/IPv6 Identity Duality by using Multi-Path Transport}", booktitle = "{Proceedings of the 18th IEEE Global Internet Symposium~(GI) at the 34th IEEE Conference on Computer Communications~(INFOCOM)}", pages = "312--317", numpages = "6", day = "27", month = apr, year = "2015", address = "Hong Kong/People's Republic of China", language = "english", isbn = "978-1-4673-7131-5", doi = "10.1109/INFCOMW.2015.7179403", keywords = "Identity Duality, IPv4, IPv6, Internet Paths, Routing", abstract = "{With the 20th anniversary of IPv6 nearing quickly, a growing number of Internet service providers~(ISPs) now offer their customers both IPv6 and IPv4 connectivity. This makes multi-homing with IPv4 and IPv6 increasingly common even with just a single ISP connection. Furthermore, the growing popularity of multi-path transport, especially Multi-Path TCP~(MPTCP) that is the extension of the well-known Transmission Control Protocol~(TCP), leads to the question of whether this identity duality can be utilized for improving application performance in addition to providing resilience. In this paper, we first investigate the AS-level congruency of IPv4 and IPv6 paths in the Internet. We find that more than 60\% of the current IPv4 and IPv6 AS-paths are non-congruent at the AS-level, which motivates us to explore how MPTCP can utilize the IPv4/IPv6 identity duality to improve data transfer performance. Our results show that MPTCP, even with a single dual-stack Internet connection, can significantly improve the end-to-end performance when the underlying paths are non-congruent. The extent of the improvement can reach up to the aggregate of the IPv4 and IPv6 bandwidth.}", url = "https://www.simula.no/file/gis2015pdf-0/download", url.size = "334367", url.md5 = "62683a568c45c655151216105a168310", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2015-03-13 14:29:03 CET", note = "{ISBN} 978-1-4673-7131-5" } @InProceedings{ Globecom2010, author = "Thomas Dreibholz and Martin Becke and Erwin Paul Rathgeb and Michael Tüxen", title = "{On the Use of Concurrent Multipath Transfer over Asymmetric Paths}", booktitle = "{Proceedings of the IEEE Global Communications Conference~(GLOBECOM)}", numpages = "6", day = "7", month = dec, year = "2010", address = "Miami, Florida/U.S.A.", language = "english", isbn = "978-1-4244-5637-6", doi = "10.1109/GLOCOM.2010.5683579", keywords = "Concurrent Multipath Transfer, Resource Pooling, Asymmetric Paths, Buffer Handling, Performance Analysis", abstract = "{With the deployment of more and more resilience-critical Internet applications, there is a rising demand for multi-homed network sites. This leads to the desire for simultaneously utilising all available access paths to improve application data throughput. This is commonly known as Concurrent Multipath Transfer~(CMT), approaches for several Transport Layer protocols have been proposed. Combined with Resource Pooling~(RP), CMT can also fairly coexist with concurrent non-CMT flows. Current approaches focus on symmetric paths (i.e.\ similar bandwidth, delay and error rate). However, asymmetric paths are much more likely -- particularly for realistic Internet setups -- and efficient CMT usage on such paths is therefore crucial. In this paper, we first show the challenges of plain as well as RP-aware CMT data transport over asymmetric paths. After that, we introduce mechanisms for efficient transport over such paths. Finally, we analyse the performance of our approaches by using simulations.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/SCTP/Paper/Globecom2010.pdf", url.size = "1060498", url.md5 = "96629a6c95f6882e9fdd54acdee2de5d", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:23 CEST", note = "{ISBN} 978-1-4244-5637-6" } @Misc{ Globecom2010-Demo, author = "Thomas Dreibholz and Martin Becke", title = "{The RSPLIB Project -- From Research to Application}", howpublished = "Demo Presentation at the IEEE Global Communications Conference~(GLOBECOM)", numpages = "3", day = "8", month = dec, year = "2010", address = "Miami, Florida/U.S.A.", language = "english", keywords = "Reliable Server Pooling~(RSerPool), RSPLIB, Service Availability, Session Failover, Load Distribution, Demonstration", abstract = "{The goal of the RSPLIB project has been to design and develop an Open Source implementation of Reliable Server Pooling~(RSerPool), the new IETF framework for server pool and session management. While its original intention had been the research on RSerPool optimizations and protocol improvements, it has meanwhile become a production-ready platform which is already used by a couple of applications. In our proposed demo for the IEEE GLOBECOM~2010, we would like to introduce RSerPool and show how applications can benefit from using the features provided by RSPLIB.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/Globecom2010-Demo.pdf", url.size = "2155355", url.md5 = "826a0e3f90f875bbae375509b6672d25", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:23 CEST" } @InProceedings{ Globecom2014, author = "Simone Ferlin and Thomas Dreibholz and Özgü Alay", title = "{Multi-Path Transport over Heterogeneous Wireless Networks: Does it really pay off?}", booktitle = "{Proceedings of the IEEE Global Communications Conference~(GLOBECOM)}", pages = "4807--4813", numpages = "7", day = "11", month = dec, year = "2014", address = "Austin, Texas/U.S.A.", language = "english", isbn = "978-1-4799-3512-3", doi = "10.1109/GLOCOM.2014.7037567", keywords = "Multi-Path Transport, Multi-Path TCP, Heterogeneous Networks, Mobile Broadband, Performance", abstract = "{Multi-path transfer protocols such as Concurrent Multi-Path Transfer for SCTP and Multi-Path TCP (MPTCP), are becoming increasingly popular due to widespread deployment of smartphones with multi-homing support. Although the idea of using multiple interfaces simultaneously to improve application throughput is tempting, does transmission over multiple interfaces always provide benefits especially in realistic setup? In this paper, we first show that multi-path transfer might actually have a negative impact in real-world scenarios with mobile broadband and wireless LAN networks. We then introduce our Dynamic Relative Path Scoring (DRePaS) algorithm that continuously evaluates the contribution of paths to the overall performance and dynamically influences the scheduling decisions to make best use of the paths for the overall system performance. We show that DRePaS outperforms the current MPTCP implementation in terms of throughput and application delay, especially when the links are heterogeneous.}", url = "https://www.simula.no/file/simulasimula2884pdf/download", url.size = "1009166", url.md5 = "5a0ad1ae3594f3818c63345173b9fc1e", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-12-12 18:15:07 CET", note = "{ISBN} 978-1-4799-3512-3" } @Misc{ Globecom2014-NorNetDemo, author = "Thomas Dreibholz and Henrik Vest Simonsen and Ernst Gunnar Gran", title = "{A Demonstration of the NorNet Core Research Testbed for Multi-Homed Systems}", howpublished = "Demo Presentation at the IEEE Global Communications Conference~(GLOBECOM)", numpages = "1", day = "9", month = dec, year = "2014", address = "Austin, Texas/U.S.A.", language = "english", keywords = "Demonstration, NorNet Core, Testbed, Multi-Homing, Multi-Path Transport, Resilience", abstract = "{This abstract describes a demonstration proposal for the NorNet Core testbed for multi-homed systems.}", url = "https://www.simula.no/file/simulasimula2868pdf/download", url.size = "60859", url.md5 = "e94511a7807546cd2c2acf7c6e438f9d", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-12-12 18:15:08 CET" } @Misc{ Haikou2014-HainanUniversity, author = "Thomas Dreibholz", title = "{The NorNet Testbed at Hainan University -- A Large-Scale Experiment Platform for Real-World Experiments with Multi-Homed Systems}", howpublished = "Invited Talk at Hainan University, College of Information Science and Technology~(CIST)", numpages = "37", day = "20", month = oct, year = "2014", address = "Haikou, Hainan/People's Republic of China", language = "english", keywords = "NorNet, NorNet Core, NorNet Edge, Testbed, Multi-Homing, Introduction, Status", abstract = "{Multi-homing denotes the simultaneous connection of endpoints (e.g.~cloud servers, smartphones, etc.) to multiple Internet Service Providers~(ISP). That is, the endpoints remain reachable even when some of the ISPs have problems (e.g.~malfunction of hardware or break of cables). Besides the redundancy aspect, multi-homing can also make load sharing by multi-path transport possible, i.e.~increasing the application throughput by utilising multiple paths simultaneously. Multi-path transport can e.g.~be realised by Concurrent Multi-Path Transfer for SCTP~(CMT-SCTP) and Multi-Path TCP~(MPTCP), two protocols that are currently under standardisation in the IETF. The growing need for and deployment of multi-homed applications makes large-scale testing and evaluation in realistic Internet setups necessary. For instance, different paths can have very different characteristics with regard to bandwidth, packet loss rate, congestion, delay and jitter. Therefore, the NorNet project of the Simula Research Laboratory is building up an open platform for such experiments: the NorNet testbed. It provides programmable nodes with multiple ISP connections -- wired as well as wireless -- that are distributed all over Norway as well as some international locations. This talk will give an overview over NorNet. Particularly, it will also show how the NorNet testbed can be utilised for research at Hainan University.}", url = "https://www.simula.no/file/haikou2014-hainanuniversity-presentationpdf/download", url.size = "12225804", url.md5 = "3f83db1821d33b72dc869ac7a86aa094", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2015-02-28 10:39:15 CET" } @Misc{ Haikou2014-NorNetCore-Tutorial, author = "Thomas Dreibholz", title = "{An Experiment Tutorial for the NorNet Core Testbed at Hainan University}", howpublished = "Tutorial at Hainan University, College of Information Science and Technology~(CIST)", numpages = "27", day = "27", month = oct, year = "2014", address = "Haikou, Hainan/People's Republic of China", language = "english", keywords = "NorNet, NorNet Core, Testbed, Multi-Homing, Multi-Path Transport, Tutorial", abstract = "{This tutorial -- presented for students at the College of Information Science and Technology~(CIST) at Hainan University -- provides an introduction on how to get access to the NorNet Core testbed as well as how to run experiments in the testbed.}", url = "https://www.simula.no/file/simulasimula3078pdf/download", url.size = "2198678", url.md5 = "d884e2a243b307e85ce712583812d798", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2015-02-28 10:39:19 CET" } @Misc{ Haikou2014-QiongzhouUniversity, author = "Thomas Dreibholz", title = "{The NorNet Testbed at Qiongzhou University -- A Large-Scale Experiment Platform for Real-World Experiments with Multi-Homed Systems}", howpublished = "Invited Talk at Qiongzhou University", numpages = "30", day = "25", month = oct, year = "2014", address = "Sanya, Hainan/People's Republic of China", language = "english", keywords = "NorNet, NorNet Core, NorNet Edge, Testbed, Multi-Homing, Introduction, Status", abstract = "{Multi-homing denotes the simultaneous connection of endpoints (e.g.~cloud servers, smartphones, etc.) to multiple Internet Service Providers~(ISP). That is, the endpoints remain reachable even when some of the ISPs have problems (e.g.~malfunction of hardware or break of cables). Besides the redundancy aspect, multi-homing can also make load sharing by multi-path transport possible, i.e.~increasing the application throughput by utilising multiple paths simultaneously. Multi-path transport can e.g.~be realised by Concurrent Multi-Path Transfer for SCTP~(CMT-SCTP) and Multi-Path TCP~(MPTCP), two protocols that are currently under standardisation in the IETF. The growing need for and deployment of multi-homed applications makes large-scale testing and evaluation in realistic Internet setups necessary. For instance, different paths can have very different characteristics with regard to bandwidth, packet loss rate, congestion, delay and jitter. Therefore, the NorNet project of the Simula Research Laboratory is building up an open platform for such experiments: the NorNet testbed. It provides programmable nodes with multiple ISP connections -- wired as well as wireless -- that are distributed all over Norway as well as some international locations. This talk will give an overview over NorNet. Particularly, it will also show how the NorNet testbed can be utilised for research at Qiongzhou University.}", url = "https://www.simula.no/file/haikou2014-qiongzhouuniversity-presentationpdf/download", url.size = "7654112", url.md5 = "4431f323f43a1010eb2ba371e72f6b92", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2015-02-28 10:39:18 CET" } @Misc{ Haikou2016-Presentation, author = "Thomas Dreibholz", title = "{NorNet at Hainan University -- An Introduction to the NorNet Testbed}", howpublished = "Invited Talk at Hainan University, College of Information Science and Technology~(CIST)", numpages = "34", day = "29", month = may, year = "2016", address = "Haikou, Hainan/People's Republic of China", language = "english", keywords = "NorNet, NorNet Core, NorNet Edge, Testbed, Multi-Homing, Introduction, Status", abstract = "{Multi-homing denotes the simultaneous connection of endpoints (e.g.~cloud servers, smartphones, etc.) to multiple Internet Service Providers~(ISP). That is, the endpoints remain reachable even when some of the ISPs have problems (e.g.~malfunction of hardware or break of cables). Besides the redundancy aspect, multi-homing can also make load sharing by multi-path transport possible, i.e.~increasing the application throughput by utilising multiple paths simultaneously. Multi-path transport can e.g.~be realised by Concurrent Multi-Path Transfer for SCTP~(CMT-SCTP) and Multi-Path TCP~(MPTCP), two protocols that are currently under standardisation in the IETF. The growing need for and deployment of multi-homed applications makes large-scale testing and evaluation in realistic Internet setups necessary. For instance, different paths can have very different characteristics with regard to bandwidth, packet loss rate, congestion, delay and jitter. Therefore, the NorNet project of the Simula Research Laboratory is building up an open platform for such experiments: the NorNet testbed. It provides programmable nodes with multiple ISP connections -- wired as well as wireless -- that are distributed all over Norway as well as some international locations. This talk will give an overview over NorNet. Particularly, it will also show how the NorNet testbed can be utilised for research at Hainan University.}", url = "https://www.simula.no/file/haikou2016-hainanuniversity-presentationpdf/download", url.size = "14159188", url.md5 = "4b42984be60a62d83f35537c32b4313f", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2016-06-07 17:43:50 CEST" } @Misc{ Haikou2016-Tutorial, author = "Thomas Dreibholz", title = "{An Experiment Tutorial for the NorNet Core Testbed at Hainan University}", howpublished = "Tutorial at Hainan University, College of Information Science and Technology~(CIST)", numpages = "27", day = "29", month = may, year = "2016", address = "Haikou, Hainan/People's Republic of China", language = "english", keywords = "NorNet, NorNet Core, Testbed, Multi-Homing, Multi-Path Transport, Tutorial", abstract = "{This tutorial -- presented for students at the College of Information Science and Technology~(CIST) at Hainan University -- provides an introduction on how to get access to the NorNet Core testbed as well as how to run experiments in the testbed.}", url = "https://www.simula.no/file/haikou2016-hainanuniversity-tutorialpdf-0/download", url.size = "5174351", url.md5 = "29995f8cc5514f8bcbb9725816ff2bde", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2016-06-07 17:50:15 CEST" } @Misc{ Haikou2017-2-MELODIC-Introduction, author = "Thomas Dreibholz", title = "{Big Data Applications on Multi-Clouds: An Introduction to the MELODIC Project}", howpublished = "Keynote Talk at Hainan University, College of Information Science and Technology (CIST)", numpages = "28", day = "29", month = dec, year = "2017", address = "Haikou, Hainan/People's Republic of China", language = "english", keywords = "Cloud Computing, MELODIC, OpenStack, Big Data, Applications", abstract = "{In former times, it was necessary to operate and maintain powerful personal computers to run applications. Nowadays, many "normal" users just use laptops, tablet PCs or smartphones. Their applications are powered by cloud systems in the background, which are operated in data centres at remote locations and being connected over the Internet. This presentation first introduces the basics of cloud computing: virtualisation, virtual machines, containers, and software as a service. A challenge of using cloud computing is to deploy services to cloud providers, in order to operate them in a cost-efficient way while providing the best application experience to the users. The vision of the Multi-Cloud Execution-Ware for Large-scale Optimised Data-Intensive Computing~(MELODIC) project is to enable federated cloud computing for data-intensive applications. Furthermore, it provides the user with an easy-to-use, unified cloud environment, which hides the complexity of a multi-cloud. The second part of this presentation therefore provides an overview of the basic ideas and application use cases of MELODIC.}", url = "https://www.simula.no/file/haikou2017-melodic-introductionpdf/download", url.size = "11649839", url.md5 = "78406b60a0eb59d72adf177f427ed542", url.mime = "application/pdf", url.pagesize = "1919.96 x 1079.97 pts", url.checked = "2017-12-29 12:31:20 CST" } @Misc{ Haikou2017-2-MELODIC-NorNetCore, author = "Thomas Dreibholz", title = "{Combining NorNet Core with MELODIC}", howpublished = "Invited Talk at Hainan University, College of Information Science and Technology (CIST)", numpages = "15", day = "29", month = dec, year = "2017", address = "Haikou, Hainan/People's Republic of China", language = "english", keywords = "Cloud Computing, MELODIC, Multi-Homing, NorNet Core, NorNet Testbed, OpenStack", abstract = "{This talk gives a short overview over the possibilities of testing applications in the NorNet infrastructure. Furthermore, it presents a short overview of the ongoing work on integrating NorNet Core with the MELODIC multi-cloud infrastructure, including the NorNet Core setup at Hainan University and the Haikou College of Economics.}", url = "https://www.simula.no/file/haikou2017-melodic-nornetcorepdf/download", url.size = "11035629", url.md5 = "9ade823e423387685270004ad3561220", url.mime = "application/pdf", url.pagesize = "793.672 x 595.247 pts", url.checked = "2018-01-05 11:38:50 CET" } @Misc{ Haikou2017-2-MultiPath, author = "Thomas Dreibholz", title = "{An Introduction to Multi-Path Transport at Hainan University}", howpublished = "Keynote Talk at Hainan University, College of Information Science and Technology (CIST)", numpages = "44", day = "14", month = dec, year = "2017", address = "Haikou, Hainan/People's Republic of China", language = "english", keywords = "NorNet, NorNet Core, NorNet Edge, Testbed, Multi-Homing, Introduction, Status", abstract = "{A large fraction of the communication in the Internet is handled by the Transmission Control Protocol (TCP). Since the first deployments of this protocol more than 30 years ago, the spectrum of applications as well as the structure of the network have developed at a fast pace. For example, today's network devices, like smartphones and laptops -- i.e.\ particularly many devices in the area of mobile computing -- frequently have an interesting property: the existence of multiple IP addresses (IPv4 and/or IPv6). The addresses may even change due to mobility. This property, denoted as multi-homing, can be utilised for multi-path transport, i.e. the simultaneous usage of multiple paths in the network to improve performance. Multi-path transport is a hot topic in the Internet Engineering Task Force (IETF), which is the standardisation organisation for the Internet. This talk provides an overview of the work in the areas of multi-homing and multi-path transport, with focus on the area of the protocols TCP and Stream Control Transmission Protocol (SCTP) with their experimental extensions Multi-Path TCP (MPTCP) and Concurrent Multi-Path Transfer for SCTP (CMT-SCTP). It particularly shows the sequence of research and selected results, beginning from a simple simulation model, via lab setups and small Internet scenarios, up to the large-scale, international testbed project NorNet. NorNet, and particularly its landline network part NorNet Core, is furthermore described in some detail. Based on NorNet, it is finally possible to validate simulation results in real-world, multi-homed networks, in order to provide valuable input to the ongoing IETF standardisation processes of MPTCP and CMT-SCTP. Particularly, it will also show how the NorNet testbed can be utilised for research at Hainan University.}", url = "https://www.simula.no/file/haikou2017-multipath-presentationpdf-0/download", url.size = "18376093", url.md5 = "8273d205aff530bb3ad845a98727310a", url.mime = "application/pdf", url.pagesize = "793.672 x 595.247 pts", url.checked = "2017-12-28 13:54:29 CST" } @Misc{ Haikou2017-2-NEAT-Tutorial, author = "Thomas Dreibholz", title = "{NEAT Tutorial at Hainan University: Getting Started with NEAT}", howpublished = "Invited Talk at Hainan University, College of Information Science and Technology~(CIST)", numpages = "20", day = "18", month = dec, year = "2017", address = "Haikou, Hainan/People's Republic of China", language = "english", keywords = "NEAT, NEAT Sockets API, Client, Server, Programming, Examples, NorNet Core", abstract = "{The goal of NEAT (A New, Evolutive API and Transport-Layer Architecture for the Internet) is to allow network "services" offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This talk gives a practical introduction to NEAT from a developer's perspective: after an introduction to NEAT, the APIs and in particular the NEAT Sockets API are explained. This is followed by pseudo-code examples and finally running-code examples. These running-code examples particularly also show how to use NEAT in NorNet Core}", url = "https://www.simula.no/file/haikou2017-neat-tutorialpdf/download", url.size = "3274944", url.md5 = "3a3d41b926ad3b6e7cad46b6f4372f7e", url.mime = "application/pdf", url.pagesize = "719.972 x 539.972 pts", url.checked = "2017-12-28 16:35:46 CST" } @Misc{ Haikou2017-2-NorNet-Tutorial, author = "Thomas Dreibholz", title = "{NorNet Core Beginner Tutorial at Hainan University}", howpublished = "Tutorial at Hainan University, College of Information Science and Technology~(CIST)", numpages = "29", day = "15", month = dec, year = "2017", address = "Haikou, Hainan/People's Republic of China", language = "english", keywords = "NorNet, NorNet Core, Testbed, Multi-Homing, Multi-Path Transport, Tutorial", abstract = "{This tutorial -- presented for students at the College of Information Science and Technology~(CIST) at Hainan University -- provides an introduction on how to get access to the NorNet Core testbed as well as how to run experiments in the testbed.}", url = "https://www.simula.no/file/haikou2017-nornet-tutorialpdf-0/download", url.size = "7129254", url.md5 = "4284520cbafcd9c10a67593dba9d1908", url.mime = "application/pdf", url.pagesize = "793.672 x 595.247 pts", url.checked = "2017-12-28 14:00:06 CST" } @Misc{ Haikou2017-MultiPath-Presentation, author = "Thomas Dreibholz", title = "{Multi-Path Transport at Hainan University – From Simulations to Real-World Internet Measurements in the NorNet Testbed}", howpublished = "Keynote Talk at Hainan University, College of Information Science and Technology (CIST)", numpages = "44", day = "18", month = apr, year = "2017", address = "Haikou, Hainan/People's Republic of China", language = "english", keywords = "NorNet, NorNet Core, NorNet Edge, Testbed, Multi-Homing, Introduction, Status", abstract = "{A large fraction of the communication in the Internet is handled by the Transmission Control Protocol (TCP). Since the first deployments of this protocol more than 30 years ago, the spectrum of applications as well as the structure of the network have developed at a fast pace. For example, today's network devices, like smartphones and laptops -- i.e.\ particularly many devices in the area of mobile computing -- frequently have an interesting property: the existence of multiple IP addresses (IPv4 and/or IPv6). The addresses may even change due to mobility. This property, denoted as multi-homing, can be utilised for multi-path transport, i.e. the simultaneous usage of multiple paths in the network to improve performance. Multi-path transport is a hot topic in the Internet Engineering Task Force (IETF), which is the standardisation organisation for the Internet. This talk provides an overview of the work in the areas of multi-homing and multi-path transport, with focus on the area of the protocols TCP and Stream Control Transmission Protocol (SCTP) with their experimental extensions Multi-Path TCP (MPTCP) and Concurrent Multi-Path Transfer for SCTP (CMT-SCTP). It particularly shows the sequence of research and selected results, beginning from a simple simulation model, via lab setups and small Internet scenarios, up to the large-scale, international testbed project NorNet. NorNet, and particularly its landline network part NorNet Core, is furthermore described in some detail. Based on NorNet, it is finally possible to validate simulation results in real-world, multi-homed networks, in order to provide valuable input to the ongoing IETF standardisation processes of MPTCP and CMT-SCTP. Particularly, it will also show how the NorNet testbed can be utilised for research at Hainan University.}", url = "https://www.simula.no/file/haikou2017-multipath-presentationpdf/download", url.size = "15151415", url.md5 = "ece75d74aefc18d93d4ae7728ffadf5b", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2017-04-23 12:09:00 CEST" } @Misc{ Haikou2017-NEAT, author = "Thomas Dreibholz", title = "{A Practical Introduction to NEAT at Hainan University}", howpublished = "Invited Talk at Hainan University, College of Information Science and Technology~(CIST)", numpages = "19", day = "17", month = apr, year = "2017", address = "Haikou, Hainan/People's Republic of China", language = "english", keywords = "NEAT, NEAT Sockets API, Client, Server, Programming, Examples, NorNet Core", abstract = "{The goal of NEAT (A New, Evolutive API and Transport-Layer Architecture for the Internet) is to allow network "services" offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This talk gives a practical introduction to NEAT from a developer's perspective: after an introduction to NEAT, the APIs and in particular the NEAT Sockets API are explained. This is followed by pseudo-code examples and finally running-code examples. These running-code examples particularly also show how to use NEAT in NorNet Core}", url = "https://www.simula.no/file/haikou2017-neat-introductionpdf/download", url.size = "886012", url.md5 = "0da3ed198c7c49822d6626281f3dd270", url.mime = "application/pdf", url.pagesize = "720 x 540 pts", url.checked = "2017-04-17 08:41:42 CEST" } @Misc{ Haikou2017-Tutorial, author = "Thomas Dreibholz", title = "{The Basics of Using the NorNet Core Testbed at Hainan University}", howpublished = "Tutorial at Hainan University, College of Information Science and Technology~(CIST)", numpages = "30", day = "18", month = apr, year = "2017", address = "Haikou, Hainan/People's Republic of China", language = "english", keywords = "NorNet, NorNet Core, Testbed, Multi-Homing, Multi-Path Transport, Tutorial", abstract = "{This tutorial -- presented for students at the College of Information Science and Technology~(CIST) at Hainan University -- provides an introduction on how to get access to the NorNet Core testbed as well as how to run experiments in the testbed.}", url = "https://www.simula.no/file/haikou2017-nornet-tutorialpdf/download", url.size = "5105692", url.md5 = "dd54c96d743be34c823d3d26f2268a0d", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2017-04-23 12:10:14 CEST" } @Misc{ Haikou2019-MELODIC-Introduction, author = "Thomas Dreibholz", title = "{MELODIC at Hainan University: An Introduction to the MELODIC Project}", howpublished = "Keynote Talk at Hainan University, College of Information Science and Technology (CIST)", numpages = "28", day = "17", month = apr, year = "2019", address = "Haikou, Hainan/People's Republic of China", language = "english", keywords = "Cloud Computing, MELODIC, OpenStack, Big Data, Applications", abstract = "{In former times, it was necessary to operate and maintain powerful personal computers to run applications. Nowadays, many "normal" users just use laptops, tablet PCs or smartphones. Their applications are powered by cloud systems in the background, which are operated in data centres at remote locations and being connected over the Internet. This presentation first introduces the basics of cloud computing: virtualisation, virtual machines, containers, and software as a service. A challenge of using cloud computing is to deploy services to cloud providers, in order to operate them in a cost-efficient way while providing the best application experience to the users. The vision of the Multi-Cloud Execution-Ware for Large-scale Optimised Data-Intensive Computing~(MELODIC) project is to enable federated cloud computing for data-intensive applications. Furthermore, it provides the user with an easy-to-use, unified cloud environment, which hides the complexity of a multi-cloud. The second part of this presentation therefore provides an overview of the basic ideas and application use cases of MELODIC.}", url = "https://www.simula.no/file/china2019-melodic-introductionpdf/download", url.size = "8302503", url.md5 = "931f7970895caa43236b89ddb370ddac", url.mime = "application/pdf", url.pagesize = "1919.99 x 1080 pts", url.checked = "2019-05-04 15:42:16 CST" } @Misc{ Haikou2019-MELODIC-NorNetCore, author = "Thomas Dreibholz", title = "{MELODIC at Hainan University: Combining NorNet Core with MELODIC}", howpublished = "Invited Talk at Hainan University, College of Information Science and Technology (CIST)", numpages = "16", day = "18", month = apr, year = "2019", address = "Haikou, Hainan/People's Republic of China", language = "english", keywords = "Cloud Computing, MELODIC, Multi-Homing, NorNet Core, NorNet Testbed, OpenStack", abstract = "{This talk gives a short overview over the possibilities of testing applications in the NorNet infrastructure. Furthermore, it presents a short overview of the ongoing work on integrating NorNet Core with the MELODIC multi-cloud infrastructure, including the NorNet Core setup at Hainan University and the Haikou College of Economics.}", url = "https://www.simula.no/file/china2019-melodic-nornetcorepdf/download", url.size = "7555938", url.md5 = "0daa0309becaa93ba0df66787bdac2fe", url.mime = "application/pdf", url.pagesize = "793.701 x 595.276 pts", url.checked = "2019-05-04 15:42:19 CST" } @Misc{ Haikou2019-MultiPath, author = "Thomas Dreibholz", title = "{NorNet at Hainan University: From Simulations to Real-World Internet Measurements for Multi-Path Transport Research}", howpublished = "Keynote Talk at Hainan University, College of Information Science and Technology (CIST)", numpages = "44", day = "15", month = apr, year = "2019", address = "Haikou, Hainan/People's Republic of China", language = "english", keywords = "NorNet, NorNet Core, NorNet Edge, Testbed, Multi-Homing, Introduction, Status", abstract = "{A large fraction of the communication in the Internet is handled by the Transmission Control Protocol (TCP). Since the first deployments of this protocol more than 30 years ago, the spectrum of applications as well as the structure of the network have developed at a fast pace. For example, today's network devices, like smartphones and laptops -- i.e.\ particularly many devices in the area of mobile computing -- frequently have an interesting property: the existence of multiple IP addresses (IPv4 and/or IPv6). The addresses may even change due to mobility. This property, denoted as multi-homing, can be utilised for multi-path transport, i.e. the simultaneous usage of multiple paths in the network to improve performance. Multi-path transport is a hot topic in the Internet Engineering Task Force (IETF), which is the standardisation organisation for the Internet. This talk provides an overview of the work in the areas of multi-homing and multi-path transport, with focus on the area of the protocols TCP and Stream Control Transmission Protocol (SCTP) with their experimental extensions Multi-Path TCP (MPTCP) and Concurrent Multi-Path Transfer for SCTP (CMT-SCTP). It particularly shows the sequence of research and selected results, beginning from a simple simulation model, via lab setups and small Internet scenarios, up to the large-scale, international testbed project NorNet. NorNet, and particularly its landline network part NorNet Core, is furthermore described in some detail. Based on NorNet, it is finally possible to validate simulation results in real-world, multi-homed networks, in order to provide valuable input to the ongoing IETF standardisation processes of MPTCP and CMT-SCTP. Particularly, it will also show how the NorNet testbed can be utilised for research at Hainan University.}", url = "https://www.simula.no/file/china2019-multipath-presentationpdf/download", url.size = "18405526", url.md5 = "e772349a001d337ecb15b28e34cefc86", url.mime = "application/pdf", url.pagesize = "793.701 x 595.276 pts", url.checked = "2019-05-04 15:42:09 CST" } @Misc{ Haikou2019-NorNet-Tutorial, author = "Thomas Dreibholz", title = "{NorNet at Hainan University: Getting Started with NorNet Core}", howpublished = "Tutorial at Hainan University, College of Information Science and Technology~(CIST)", numpages = "29", day = "16", month = apr, year = "2019", address = "Haikou, Hainan/People's Republic of China", language = "english", keywords = "NorNet, NorNet Core, Testbed, Multi-Homing, Multi-Path Transport, Tutorial", abstract = "{This tutorial -- presented for students at the College of Information Science and Technology~(CIST) at Hainan University -- provides an introduction on how to get access to the NorNet Core testbed as well as how to run experiments in the testbed.}", url = "https://www.simula.no/file/china2019-nornet-tutorialpdf/download", url.size = "7460860", url.md5 = "bfb88231c7e5c29d0343d3fed3f9a2bf", url.mime = "application/pdf", url.pagesize = "793.701 x 595.276 pts", url.checked = "2019-05-04 15:42:12 CST" } @Misc{ HaikouTalk2007, author = "Thomas Dreibholz", title = "{An Introduction to Reliable Server Pooling and the RSPLIB Implementation}", howpublished = "Invited Talk at Hainan University, College of Information Science and Technology~(CIST)", numpages = "23", day = "2", month = dec, year = "2007", address = "Haikou, Hainan/People's Republic of China", language = "english", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/HaikouTalk2007.pdf", url.size = "7921188", url.md5 = "bc192125b5728d9da4b0996a75d19f5e", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2014-04-02 17:08:19 CEST", url.keywords = "RSerPool, RSPLIB, Introduction" } @Misc{ HaikouTalk2008, author = "Thomas Dreibholz and Xing Zhou", title = "{SCTP and RSerPool: Architectures and Protocols for the Future Internet}", howpublished = "Invited Talk at Hainan University, College of Information Science and Technology~(CIST)", numpages = "22", day = "26", month = sep, year = "2008", address = "Haikou, Hainan/People's Republic of China", language = "english", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/Haikou2008-English.pdf", url.size = "2309884", url.md5 = "ff7675477fc736d4f43908249ea7861b", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2014-04-02 17:08:19 CEST", url.keywords = "RSerPool, RSPLIB, Introduction" } @Misc{ HAWHamburg2016-Presentation, author = "Thomas Dreibholz", title = "{NorNet at HAW Hamburg -- An Introduction to the NorNet Testbed}", howpublished = "Invited Talk at Hochschule für Angewandte Wissenschaften Hamburg~(HAW Hamburg)", numpages = "38", day = "22", month = mar, year = "2016", address = "Hamburg/Germany", language = "english", keywords = "NorNet, NorNet Core, NorNet Edge, Testbed, Multi-Homing, Introduction, Status", abstract = "{Multi-homing denotes the simultaneous connection of endpoints (e.g.~cloud servers, smartphones, etc.) to multiple Internet Service Providers~(ISP). That is, the endpoints remain reachable even when some of the ISPs have problems (e.g.~malfunction of hardware or break of cables). Besides the redundancy aspect, multi-homing can also make load sharing by multi-path transport possible, i.e.~increasing the application throughput by utilising multiple paths simultaneously. Multi-path transport can e.g.~be realised by Concurrent Multi-Path Transfer for SCTP~(CMT-SCTP) and Multi-Path TCP~(MPTCP), two protocols that are currently under standardisation in the IETF. The growing need for and deployment of multi-homed applications makes large-scale testing and evaluation in realistic Internet setups necessary. For instance, different paths can have very different characteristics with regard to bandwidth, packet loss rate, congestion, delay and jitter. Therefore, the NorNet project of the Simula Research Laboratory is building up an open platform for such experiments: the NorNet testbed. It provides programmable nodes with multiple ISP connections -- wired as well as wireless -- that are distributed all over Norway as well as some international locations. This talk will give an overview over NorNet. Particularly, it will also show how the NorNet testbed can be utilised for research at the Hochschule für Angewandte Wissenschaften Hamburg~(HAW Hamburg)}", url = "https://www.simula.no/file/hawhamburg2016-presentationpdf/download", url.size = "14316338", url.md5 = "49c17f620cbfe46758e8f02f4e553081", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2016-03-22 17:15:53 CET" } @Misc{ HAWHamburg2016-Tutorial, author = "Thomas Dreibholz", title = "{An Experiment Tutorial for the NorNet Core Testbed at HAW Hamburg}", howpublished = "Tutorial at Hochschule für Angewandte Wissenschaften Hamburg~(HAW Hamburg)", numpages = "27", day = "22", month = mar, year = "2016", address = "Hamburg/Germany", language = "english", keywords = "NorNet, NorNet Core, Testbed, Multi-Homing, Multi-Path Transport, Tutorial", abstract = "{This tutorial -- presented at the Hochschule für Angewandte Wissenschaften Hamburg~(HAW Hamburg) -- provides an introduction on how to get access to the NorNet Core testbed as well as how to run experiments in the testbed.}", url = "https://www.simula.no/file/hawhamburg2016-tutorialpdf/download", url.size = "4232294", url.md5 = "46cc11c5168a96e4b30c0737c82158f1", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2016-03-22 17:21:00 CET" } @InProceedings{ HETNET2004, author = "Thomas Dreibholz and Avril~J. IJsselmuiden and John~L. Adams", title = "{Simulation of an Advanced QoS Protocol for Mass Content}", booktitle = "{Proceedings of the 2nd International Conference on Performance Modelling and Evaluation of Heterogeneous Networks~(HET-NETs)}", numpages = "7", day = "26", month = jul, year = "2004", address = "Ikley, West Yorkshire/United Kingdom", language = "english", keywords = "Quality of Service~(QoS), Signalling Protocols, Telecommunication Congestion Control, Telecommunication Traffic", abstract = "{This paper describes a new network device to be located in network edge nodes. The device can deal with congestion conditions that may arise when, for example, a home or SME customer requests too many simultaneous flows to be forwarded down a DSL link or other access technology. It provides a solution to guaranteeing certain flows that are forwarded along one or more congested links, by making others (typically the latest flow, or another flow selected because of policy reasons), the subject of focused packet discards. The functionality of the device is described, and results from a fast-track simulation model implementing a lightweight version of the device, developed in LISP, are presented here.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/FlowRouting/Paper/HET-NET2004-Paper.pdf", url.size = "253420", url.md5 = "1e3573935ab2e0b86e9d3288dbc7109d", url.mime = "application/pdf", url.pagesize = "595 x 842 pts (A4)", url.checked = "2014-04-02 17:08:16 CEST" } @Misc{ HiOA2013, author = "Thomas Dreibholz", title = "{An Overview of the NorNet Testbed for Multi-Homed Systems}", howpublished = "Invited Talk at Høgskolen i Oslo og Akershus~(HiOA)", numpages = "25", day = "18", month = apr, year = "2013", address = "Oslo/Norway", language = "english", url = "https://www.simula.no/file/simulasimula1984pdf/download", url.size = "22276936", url.md5 = "f3351ae0edda4c0e4f2efe0bdf8c4ada", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2014-12-12 18:14:01 CET", url.keywords = "NorNet, NorNet Edge, NorNet Core, Testbed, Overview" } @Misc{ HKC2016-Presentation, author = "Thomas Dreibholz", title = "{NorNet at the Haikou College of Economics -- An Introduction to the NorNet Testbed}", howpublished = "Invited Talk at the Haikou College of Economics", numpages = "28", day = "6", month = jun, year = "2016", address = "Guilinyang, Hainan/People's Republic of China", language = "english", keywords = "NorNet, NorNet Core, NorNet Edge, Testbed, Multi-Homing, Introduction, Status", abstract = "{Multi-homing denotes the simultaneous connection of endpoints (e.g.~cloud servers, smartphones, etc.) to multiple Internet Service Providers~(ISP). That is, the endpoints remain reachable even when some of the ISPs have problems (e.g.~malfunction of hardware or break of cables). Besides the redundancy aspect, multi-homing can also make load sharing by multi-path transport possible, i.e.~increasing the application throughput by utilising multiple paths simultaneously. Multi-path transport can e.g.~be realised by Concurrent Multi-Path Transfer for SCTP~(CMT-SCTP) and Multi-Path TCP~(MPTCP), two protocols that are currently under standardisation in the IETF. The growing need for and deployment of multi-homed applications makes large-scale testing and evaluation in realistic Internet setups necessary. For instance, different paths can have very different characteristics with regard to bandwidth, packet loss rate, congestion, delay and jitter. Therefore, the NorNet project of the Simula Research Laboratory is building up an open platform for such experiments: the NorNet testbed. It provides programmable nodes with multiple ISP connections -- wired as well as wireless -- that are distributed all over Norway as well as some international locations. This talk will give an overview over NorNet. Particularly, it will also show how the NorNet testbed can be utilised for research at the Haikou College of Economics.}", url = "https://www.simula.no/file/haikou2016-hkc-presentationpdf/download", url.size = "10406054", url.md5 = "2df3a5eec4fffe610a7ac773c8c2056c", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2016-06-07 18:05:01 CEST" } @InProceedings{ IAEAC2018, author = "Qining Tan and Xuelei Yang and Lan Zhao and Xing Zhou and Thomas Dreibholz", title = "{A Statistic Procedure to Find Formulae for Buffer Size in MPTCP}", booktitle = "{Proceedings of the 3rd IEEE Advanced Information Technology, Electronic and Automation Control Conference~(IAEAC)}", pages = "900--907", numpages = "8", day = "13", month = oct, year = "2018", address = "Chongqing/People's Republic of China", language = "english", isbn = "978-1-5386-4509-3", doi = "10.1109/IAEAC.2018.8577570", keywords = "Multi-Path TCP~(MPTCP), Buffer Size, Throughput, Statistical Predictive Modelling, Congestion Control", abstract = "{It has been shown that the Multi-Path Transmission Control Protocol~(MPTCP) can improve throughput, robustness and resilience of network transport. This paper seeks to discover the relationship of buffer size with throughput and congestion control algorithms, based on the statistical predictive modelling method. In spite of rapid growth of the implementations of MPTCP, the theoretical and fundamental question –- how large the buffer size of MPTCP should be to meet the network traffic -– remains unaddressed, although there were graphic illustrations and descriptive discussions about it.}", url = "https://www.simula.no/file/iaeac2018-webpdf/download", url.size = "1788429", url.md5 = "aa33f9937c7cfa4a0e666d35986a5f48", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2018-10-13 12:53:01 CEST", url.keywords = "Multi-Path TCP (MPTCP), Buffer Size, Throughput, Statistical Predictive Modelling, Congestion Control Algorithm", note = "{ISBN} 978-1-5386-4509-3" } @InProceedings{ ICC2012, author = "Martin Becke and Thomas Dreibholz and Hakim Adhari and Erwin Paul Rathgeb", title = "{On the Fairness of Transport Protocols in a Multi-Path Environment}", booktitle = "{Proceedings of the IEEE International Conference on Communications~(ICC)}", pages = "2666--2672", numpages = "7", day = "12", month = jun, year = "2012", address = "Ottawa, Ontario/Canada", language = "english", isbn = "978-1-4577-2052-9", doi = "10.1109/ICC.2012.6363695", keywords = "Multi-Homing, Multi-Path Transfer, Fairness, Congestion Control, Future Internet", abstract = "{Today, a steadily growing number of devices contains multiple network interfaces. For example, nearly all smartphones are equipped with at least W-LAN as well as 3G/4G~interfaces. In consequence, there is a rising demand for so-called multi-path transfer, which utilizes all of these interfaces simultaneously in order to maximize the payload throughput of applications. Currently, this so-called multi-path transfer is very actively discussed by the IETF, in form of the Multi-Path TCP~(MPTCP) extension for TCP as well as the Concurrent Multi-path Transfer extension for SCTP~(CMT-SCTP). Their larger-scale deployment in the Internet is expected for the near future. A key issue that prevents the standardization of these approaches is the fairness to concurrent TCP flows. A multi-path transfer should behave "TCP-friendly", i.e.\ cause no harm to the performance of the very widely deployed TCP-based applications. In this paper, we first extend the notion of "fairness" from single-path transport to multi-path transport. Furthermore, we introduce the relevant congestion control approaches in the IETF context for single-path as well as multi-path transfer. We simulatively analyze these approaches in a couple of interesting network configuration scenarios, in order to show their behavior with special regard to the fairness definitions. Particularly, we also point out items of further discussion which are the result of the current approaches.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/SCTP/Paper/ICC2012.pdf", url.size = "2016722", url.md5 = "88ea6b1a3bfc82f23629900ac4a9f6b7", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:25 CEST", note = "{ISBN} 978-1-4577-2052-9" } @InProceedings{ ICCC2015, author = "Fa Fu and Xing Zhou and Thomas Dreibholz and Keying Wang and Feng Zhou and Quan Gan", title = "{Performance Comparison of Congestion Control Strategies for Multi-Path TCP in the NorNet Testbed}", booktitle = "{Proceedings of the 4th IEEE/CIC International Conference on Communications in China~(ICCC)}", pages = "607--612", numpages = "6", day = "3", month = nov, year = "2015", address = "Shenzhen, Guangdong/People's Republic of China", language = "english", isbn = "978-1-5090-0243-6", doi = "10.1109/ICCChina.2015.7448667", keywords = "Multi-Path Transport, Multi-Path TCP~(MPTCP), Congestion Control, Performance Analysis", abstract = "{Multi-path transport has become a hot topic in Internet protocol research with the evolution of emerging technologies, particularly with the market penetration of access terminals having multiple network interfaces (e.g.\ smartphones with LTE/UMTS and Wi-Fi interfaces). Multi-Path TCP (MPTCP) is an extension of TCP that allows a connection to create several subflows for utilizing multiple network paths. Using multiple end-to-end TCP connections as subflows, MPTCP distributes data to different subflows over multiple ISPs, so as to enhance network robustness and improve throughput. This paper first presents MPTCP’s architecture and multi-path congestion control algorithm concepts. Then, it examines three test scenarios in the NorNet testbed, particularly highlighting the performance difference between using uncoupled and coupled congestion controls in multi-homed, real-world Internet setups. The results show that MPTCP with coupled CCs gets more benefits than TCP and demonstrates the lower aggressiveness in comparison to MPTCP with uncoupled CCs.}", url = "https://www.simula.no/file/fufa-mptcp-webpdf/download", url.size = "175964", url.md5 = "caabd753ddce037e04e81dbffbd0ad82", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2015-12-04 13:11:32 CET", note = "{ISBN} 978-1-5090-0243-6" } @InProceedings{ ICDS2008-Failover, author = "Thomas Dreibholz and Erwin Paul Rathgeb", title = "{Reliable Server Pooling -- A Novel IETF Architecture for Availability-Sensitive Services}", booktitle = "{Proceedings of the 2nd IEEE International Conference on Digital Society~(ICDS)}", pages = "150--156", numpages = "7", day = "14", month = feb, year = "2008", address = "Sainte Luce/Martinique", language = "english", isbn = "978-0-7695-3087-1", doi = "10.1109/ICDS.2008.11", keywords = "Reliable Server Pooling~(RSerPool), Availability, Redundancy, Failover, Server Selection", abstract = "{Reliable Server Pooling~(RSerPool) is a light-weight protocol framework for server redundancy and session failover, currently still under standardization by the IETF RSerPool~WG. While the basic ideas of RSerPool are not new, their combination into a single, resource-efficient and unified architecture is. Server redundancy directly leads to the issues of load distribution and load balancing, which are both important for the performance of RSerPool systems. Therefore, it is crucial to evaluate the performance of such systems with respect to the load balancing strategy required by the application. The goal of our paper is -- after presenting a short overview of the RSerPool architecture and its application cases -- to provide a quantitative, application-independent performance analysis of RSerPool's server failure handling capabilities with respect to important adaptive and non-adaptive load balancing strategies. We will also analyse the impact of RSerPool protocol parameters on the performance of the server failure handling functionalities and the network overhead.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/ICDS2008-Failover.pdf", url.size = "515395", url.md5 = "2b0abbad0f9f40af03022525c2a8c184", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:19 CEST", note = "{ISBN} 978-0-7695-3087-1" } @InProceedings{ ICDS2008-LUD, author = "Xing Zhou and Thomas Dreibholz and Erwin Paul Rathgeb", title = "{A New Server Selection Strategy for Reliable Server Pooling in Widely Distributed Environments}", booktitle = "{Proceedings of the 2nd IEEE International Conference on Digital Society~(ICDS)}", pages = "171--177", numpages = "7", day = "14", month = feb, year = "2008", address = "Sainte Luce/Martinique", language = "english", isbn = "978-0-7695-3087-1", doi = "10.1109/ICDS.2008.12", keywords = "Reliable Server Pooling~(RSerPool), Load Balancing, Least-Used Selection, Latency", abstract = "{In order to provide a generic, application-independent and resource-efficient framework for server redundancy and session failover, the IETF RSerPool~WG is currently standardizing the Reliable Server Pooling~(RSerPool) framework. Server redundancy has to take load distribution and load balancing into consideration since these issues are crucial for the system performance. There has already been some research on the server selection strategies of RSerPool for different application scenarios. In particular, it has been shown that the adaptive Least Used selection usually provides the best performance. This strategy requires up-to-date load information of the services, which has to be propagated among distributed pool management components. But network delay (which is realistic for systems being widely distributed to achieve availability in case of regional servers failures) as well as caching of information may both lead to obsolete load information. Therefore, the purpose of this paper is to analyse and evaluate the performance of a new server selection rule to cope with update latencies. Especially, we will also analyse the impact of different workload parameters on the performance of the new server selection strategy.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/ICDS2008-LUD.pdf", url.size = "454527", url.md5 = "8e1fe5960264a82415c27b389278d35c", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:19 CEST", note = "{ISBN} 978-0-7695-3087-1" } @InProceedings{ ICN2005, author = "Thomas Dreibholz and Erwin Paul Rathgeb and Michael Tüxen", title = "{Load Distribution Performance of the Reliable Server Pooling Framework}", booktitle = "{Proceedings of the 4th IEEE International Conference on Networking~(ICN)}", series = "{Lecture Notes in Computer Science}", volume = "3421", pages = "564--574", numpages = "11", day = "21", month = apr, year = "2005", publisher = "Springer", address = "Saint Gilles Les Bains/Reunion Island", language = "english", isbn = "3-540-25338-6", doi = "10.1007/978-3-540-31957-3_65", keywords = "RSerPool, Server Pooling, Load Distribution, Performance Analysis", abstract = "{The Reliable Server Pooling~(RSerPool) protocol suite currently under standardization by the IETF is designed to build systems providing highly available services by providing mechanisms and protocols for establishing, configuring, accessing and monitoring pools of server resources. While availability is one main aspect of RSerPool, load distribution is another. Since most of the time a server pool system runs without component failures, optimal performance is an extremely important issue for the productivity and cost-efficiency of the system. In this paper, we therefore focus especially on the load distribution performance of RSerPool in scenarios without failures, presenting a quantitative performance comparison of the different load distribution strategies (called pool policies) defined in the RSerPool specifications. Based on the results, we propose some new pool policies providing significant performance enhancements compared to those currently defined in the standards documents.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/ICN2005.pdf", url.size = "224003", url.md5 = "8b341ae8ee042fbdd1f44392f1672b4e", url.mime = "application/pdf", url.pagesize = "612 x 792 pts (letter)", url.checked = "2014-04-02 17:08:17 CEST", note = "{ISBN} 3-540-25338-6" } @InProceedings{ ICN2011, author = "Martin Becke and Thomas Dreibholz and Erwin Paul Rathgeb and Johannes Formann", title = "{Link Emulation on the Data Link Layer in a Linux-based Future Internet Testbed Environment}", booktitle = "{Proceedings of the 10th International Conference on Networks~(ICN)}", pages = "92--98", numpages = "7", day = "25", month = jan, year = "2011", address = "St.\ Maarten/Netherlands Antilles", language = "english", isbn = "978-1-61208-002-4", keywords = "Link Emulation, Data Link Layer, Future Internet Testbed, NetEm, Dummynet", abstract = "{Protocol design and development is not a straight-forward process. Each approach must be validated for interactions and side-effects in the existing network environments. But the Internet itself is not a good test environment, since its components are not controllable and certain problem situations (like congestion or error conditions) are difficult to reproduce. Various testbeds have been built up to fill this gap. Most of these testbeds also support link emulation, i.e.\ using software to mimic the characteristic behaviour of certain kinds of network links (like bandwidth bottlenecks or error-prone radio transmissions). The most popular link emulation systems are the Linux-based NetEm and Dummynet, which are e.g.\ applied on the IP~layer of Planet-Lab and various other testbeds. However, the restriction to the OSI Network Layer (here:~IP) is insufficient to test new non-IP Future Internet protocols. In this paper, we first introduce Dummynet and NetEm. After that, we will present our approach of adapting Dummynet for Linux to support link emulation on the Data Link Layer. Finally, we evaluate the applicability and performance of Dummynet and NetEm for link emulation on the Data Link Layer, in a Planet-Lab-based testbed environment. Our goal is to outline the performance and limitations of both approaches in the context of Planet-Lab-based testbeds, in order to make them applicable for the evaluation of non-IP Future Internet protocols.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/SCTP/Paper/ICN2011.pdf", url.size = "475146", url.md5 = "7dc2f73a942b21aaf8993354ead8f9e2", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:23 CEST", note = "{ISBN} 978-1-61208-002-4" } @InProceedings{ ICNP2004, author = "Thomas Dreibholz", title = "{An Overview of the Reliable Server Pooling Architecture}", booktitle = "{Proceedings of the 12th IEEE International Conference on Network Protocols~(ICNP)}", numpages = "2", day = "7", month = oct, year = "2004", address = "Berlin/Germany", language = "english", note = "Poster Presentation", keywords = "Reliable Server Pooling~(RSerPool), Overview, Implementation, RSPLIB", abstract = "{The convergence of classical PSTN and IP networks requires the transport of SS7 signalling over IP. Since SS7 has very strict availability requirements to the signalling components, redundancy is mandatory. The goal of the IETF RSerPool working group is to define a lightweight, flexible and realtime redundancy concept to fulfil the availability requirements of SS7: Reliable Server Pooling~(RSerPool). RSerPool is currently under standardization, its functionality and improvement are subject of our research. Our poster presents our RSerPool proof-of-concept implementation and a research oriented, discrete event based simulation model. We provide some simulation results showing problems of the server selection procedures defined in the standards and how we solved them. These improvements are now going into standardization by the IETF. Furthermore, we present some of our important results on efficient algorithms and data structures for pool management. The poster concludes with an outlook on our currently progressing examinations of service reliablity in failure scenarios.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/ICNP2004.pdf", url.size = "66859", url.md5 = "fa721e916781e49ca93719c3c7314dfe", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:17 CEST" } @InProceedings{ ICT2003, author = "Thomas Dreibholz and Avril~J. Smith and John~L. Adams", title = "{Realizing a Scalable Edge Device to Meet QoS Requirements for Real-Time Content Delivered to IP Broadband Customers}", booktitle = "{Proceedings of the 10th IEEE International Conference on Telecommunications~(ICT)}", volume = "2", pages = "1133--1139", numpages = "7", day = "26", month = feb, year = "2003", address = "Papeete/French Polynesia", language = "english", isbn = "0-7803-7661-7", doi = "10.1109/ICTEL.2003.1191595", keywords = "Quality of Service~(QoS), Bandwidth Guarantee, Admission Control, Congestion Control, Intelligent Packet Dropping, Edge Node, Security, Implementation Considerations", abstract = "{With DSL technology becoming widespread, more and more customers have access to high-speed Internet backbones. Such links not only speed up classical best effort applications but also make new applications like video and audio on demand possible. Unlike best effort applications, these new applications have more requirements for network quality of service, especially an assured bandwidth. Under the assumption that the link to the customer is the main bottleneck, this paper presents a new simple, scalable edge node approach that has been developed in a cooperation between the University of Essen and British Telecom~(BT). It provides a solution to guaranteeing certain flows, while making others the subject of focused packet discards. While the performance aspect of this new device is currently under research, this paper lays its focus on implementability and especially provides a security concept.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/FlowRouting/Paper/EdgeDevice-Paper.pdf", url.size = "114142", url.md5 = "7c37d41dd417062ba4fd17063d846939", url.mime = "application/pdf", url.pagesize = "595 x 842 pts (A4)", url.checked = "2014-04-02 17:08:16 CEST", note = "{ISBN} 0-7803-7661-7" } @InProceedings{ IETF60, author = "Thomas Dreibholz", title = "{Member Selection Policies for the Reliable Server Pooling Protocol Suite}", booktitle = "{Proceedings of the 60th IETF Meeting}", numpages = "11", day = "5", month = aug, year = "2004", address = "San Diego, California/U.S.A.", language = "english", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/IETF60.pdf", url.size = "3377203", url.md5 = "df00a537e3bf39fca4e5e7ba2ba2e0b4", url.mime = "application/pdf", url.pagesize = "780 x 540 pts", url.checked = "2014-04-02 17:08:17 CEST", url.keywords = "RSerPool, Policies, Namespace Management" } @InProceedings{ IETF61, author = "Thomas Dreibholz", title = "{draft-ietf-rserpool-policies-00.txt -- Definition of Member Selection Policies}", booktitle = "{Proceedings of the 61st IETF Meeting}", numpages = "10", day = "8", month = nov, year = "2004", address = "Washington, DC/U.S.A.", language = "english", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/IETF61.pdf", url.size = "2793573", url.md5 = "ef7ef8851a803cd89032050749078808", url.mime = "application/pdf", url.pagesize = "780 x 540 pts", url.checked = "2014-04-02 17:08:17 CEST", url.keywords = "RSerPool, Policies, Draft" } @InProceedings{ IETF63, author = "Thomas Dreibholz", title = "{draft-ietf-rserpool-mib-01.txt -- Management Information Base Definition for Reliable Server Pooling}", booktitle = "{Proceedings of the 63rd IETF Meeting}", numpages = "8", day = "1", month = aug, year = "2005", address = "Paris/France", language = "english", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/IETF63.pdf", url.size = "2302359", url.md5 = "d258fb6d483b6d6b69ed97578a489b59", url.mime = "application/pdf", url.pagesize = "780 x 540 pts", url.checked = "2014-04-02 17:08:17 CEST", url.keywords = "RSerPool, MIB, Draft" } @InProceedings{ IETF83-ICCRGFairness, author = "Hakim Adhari and Martin Becke and Thomas Dreibholz", title = "{On the Fairness of Transport Protocols in a Multi-Path Environment}", booktitle = "{Proceedings of the 83rd IETF Meeting}", numpages = "18", day = "27", month = mar, year = "2012", address = "Paris/France", language = "english", url = "https://www.ietf.org/proceedings/83/slides/slides-83-iccrg-3.pdf", url.size = "1027966", url.md5 = "1345b92fb66655adf2b3c9c9827e2068", url.mime = "application/pdf", url.pagesize = "720 x 540 pts", url.checked = "2014-04-02 17:35:47 CEST", url.keywords = "Thema" } @InProceedings{ IETF87, author = "Thomas Dreibholz", title = "{The NorNet Testbed: A Platform for Evaluating Multi-Path Transport in the Real-World Internet}", booktitle = "{Proceedings of the 87th IETF Meeting}", numpages = "9", day = "30", month = jul, year = "2013", address = "Berlin/Germany", language = "english", url = "https://www.ietf.org/proceedings/87/slides/slides-87-mptcp-4.pdf", url.size = "13660679", url.md5 = "60e2a88f7784a2ad5e95af77b4eac809", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2014-12-12 18:14:11 CET", url.keywords = "NorNet, NorNet Edge, NorNet Core, Testbed, Overview" } @InProceedings{ IETF89-NorNet, author = "Thomas Dreibholz", title = "{The Status of MPTCP Deployment and Evaluation in the NorNet Testbed}", booktitle = "{Proceedings of the 89th IETF Meeting}", numpages = "6", day = "3", month = mar, year = "2014", address = "London/United Kingdom", language = "english", url = "https://www.simula.no/file/simulasimula2582pdf/download", url.size = "1549446", url.md5 = "79b1f59c28309d376f05b7ac3709ca9d", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2014-12-12 18:14:43 CET", url.keywords = "MPTCP, NorNet, NorNet Core, NorNet Edge" } @InProceedings{ IETF89-VNFPOOL, author = "Thomas Dreibholz", title = "{On the Applicability of Reliable Server Pooling for Virtualised Network Function Resource Pooling}", booktitle = "{Proceedings of the 89th IETF Meeting}", numpages = "8", day = "4", month = mar, year = "2014", address = "London/United Kingdom", language = "english", url = "https://www.simula.no/file/simulasimula2584pdf/download", url.size = "2534881", url.md5 = "b4cdac71c0a7fd2bf7888649956eeeae", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2014-12-12 18:14:46 CET", url.keywords = "Reliable Server Pooling, RSerPool, Virtualised Network Function Resource Pooling, VNFPOOL" } @InProceedings{ IETF93-MPTCP, author = "Thomas Dreibholz", title = "{MPTCP Experiences in the NorNet Testbed: draft-dreibholz-mptcp-nornet-experience-01}", booktitle = "{Proceedings of the 93th IETF Meeting}", numpages = "10", day = "21", month = jul, year = "2015", address = "Praha/Czech Republic", language = "english", keywords = "NorNet, Multi-Path TCP (MPTCP), Experiences", abstract = "{This presentation gives an overview of the Multi-Path TCP (MPTCP) experiences from recent research in the NorNet testbed.}", url = "https://www.simula.no/file/ietf93-presentationpdf/download", url.size = "13104547", url.md5 = "65887764fb8f954949ee47abf20b06ec", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2015-07-21 14:16:17 CEST" } @InProceedings{ IFIPNetworking2014, author = "Adnan Aziz and Dirk Hoffstadt and Erwin Paul Rathgeb and Thomas Dreibholz", title = "{A Distributed Infrastructure to Analyse SIP Attacks in the Internet}", booktitle = "{Proceedings of the IFIP Networking Conference}", pages = "1--9", numpages = "9", day = "4", month = jun, year = "2014", address = "Trondheim, Sør-Trøndelag/Norway", language = "english", isbn = "978-3-901882-58-6", doi = "10.1109/IFIPNetworking.2014.6857088", keywords = "VoIP, SIP, SIP Trace Recorder, Misuse, Fraud, Security, Honeynet, Honeypot, Sensor, NorNet, Toll Fraud, Misuse Detection", abstract = "{VoIP systems, based on the Session Initiation Protocol~(SIP), are becoming more and more widespread in the Internet. However, this creates security issues and opens up new opportunities for misuse and fraud. The most widespread threat are multi-stage attacks to commit Toll Fraud. To devise effective countermeasures, it is crucial to know how attacks on these systems are performed in reality. In this paper, we introduce a novel distributed monitoring system with Sensor nodes located in Norway, Germany and China that allow to detect SIP-based attacks from the Internet. Based on experiences from experiments spanning several years, we propose a new setup which allows simple and straightforward addition of new remote observation points. We have deployed this setup in the NorNet testbed and highlight its advantages compared to a previous setup with physically distributed Sensors. We also present results from a 45~day field test with 13 observation points. These results confirm the advantages of a widely distributed monitoring setup and give some new insights into the behavior of the attackers.}", url = "https://www.tdr.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/Forschung/A_Distributed_Infrastructure_to_Analyse_SIP_Attacks_in_the_Internet.pdf", url.size = "744736", url.md5 = "06d871da35e30c555878c0f619268135", url.mime = "application/pdf", url.pagesize = "595.44 x 841.68 pts", url.checked = "2014-04-24 14:17:48 CEST", note = "{ISBN} 978-3-901882-58-6" } @Article{ IJAIT2009, author = "Thomas Dreibholz and Erwin Paul Rathgeb", title = "{Overview and Evaluation of the Server Redundancy and Session Failover Mechanisms in the Reliable Server Pooling Framework}", journal = "{International Journal on Advances in Internet Technology~(IJAIT)}", volume = "2", number = "1", pages = "1--14", numpages = "14", day = "8", month = jun, year = "2009", language = "english", issn = "1942-2652", keywords = "Reliable Server Pooling~(RSerPool), Service Availability, Redundancy, Session Failover, Server Selection", abstract = "{The number of availability-critical Internet applications is steadily increasing. To support the development and operation of such applications, the IETF has recently defined a new standard for a common server redundancy and session failover framework: Reliable Server Pooling~(RSerPool). The basic ideas of the RSerPool framework are not entirely new, but their combination into a single, resource-efficient and unified architecture is. Service availability achieved by the redundancy of servers directly leads to the issues of load distribution and load balancing, which are both important for the performance of RSerPool systems. Therefore, it is crucial to evaluate the performance of such systems with respect to the load balancing strategy required by the service application. In this article -- which is an extended version of our paper~[1] -- we first present an overview of the RSerPool architecture with a focus on the component failure detection and handling mechanisms. We will also shortly introduce the underlying SCTP protocol and its link redundancy features. After that, we will present a quantitative, application-independent performance analysis of the failure detection and session failover mechanisms provided by RSerPool, with respect to important adaptive and non-adaptive load balancing strategies.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/IJAIT2009.pdf", url.size = "1183747", url.md5 = "d3f66675bd31433a0b788a0cbac7121c", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:22 CEST", note = "{ISSN} 1942-2652" } @Article{ IJHIT2008, author = "Thomas Dreibholz and Erwin Paul Rathgeb", title = "{An Evaluation of the Pool Maintenance Overhead in Reliable Server Pooling Systems}", journal = "{SERSC International Journal on Hybrid Information Technology~(IJHIT)}", volume = "1", number = "2", pages = "17--32", numpages = "16", month = apr, year = "2008", language = "english", issn = "1738-9968", keywords = "Reliable Server Pooling~(RSerPool), Server Pools, Handlespace Management, Stream Control Transmission Protocol~(SCTP), Performance, Measurements", abstract = "{Currently, the IETF RSerPool~WG is standardizing a generic protocol framework for server redundancy and session failover: Reliable Server Pooling~(RSerPool). An important property of RSerPool is its lightweight architecture: server pool and session management can be realized with small CPU power and memory requirements. That is, RSerPool-based services can also be managed and provided by embedded systems. Up to now, there has already been some research on the performance of the data structures managing server pools. But a generic, application-independent performance analysis -- in particular also including measurements in real system setups -- is still missing. The aim of this article is therefore -- after giving an outline of the RSerPool framework, an introduction to the pool management procedures and a description of our pool management approach -- to first provide a detailed performance evaluation of the pool management structures themselves. Afterwards, the performance of a prototype implementation is analysed in order to evaluate its applicability in a real network setup.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/IJHIT2008.pdf", url.size = "3367196", url.md5 = "175a230c33b66aa474020607da51b8c4", url.mime = "application/pdf", url.pagesize = "595 x 842 pts (A4)", url.checked = "2014-04-02 17:08:19 CEST", note = "{ISSN} 1738-9968" } @Article{ IJIIDS2010, author = "Thomas Dreibholz and Xing Zhou and Martin Becke and Jobin Pulinthanath and Erwin Paul Rathgeb and Wencai Du", title = "{On the Security of Reliable Server Pooling Systems}", journal = "{International Journal on Intelligent Information and Database Systems~(IJIIDS)}", volume = "4", number = "6", pages = "552--578", numpages = "27", month = dec, year = "2010", language = "english", issn = "1751-5858", doi = "10.1504/IJIIDS.2010.036894", keywords = "Reliable Server Pooling~(RSerPool), Security, Attacks, Robustness, Performance Analysis, PlanetLab", abstract = "{In order to cope with the requirements of availability-critical Internet services, Reliable Server Pooling~(RSerPool) has been developed as the new IETF standard for a lightweight server redundancy and session failover framework. While the service and pool management performance of RSerPool had already been the topic of various research papers, its security has not yet been widely examined. But security for availability-critical systems is crucial, since service outages -- regardless of whether being caused by system failures or intentional Denial of Service~(DoS) attacks -- are not acceptable for the users of such systems. In this article, we first introduce RSerPool as well as the underlying SCTP protocol. In an analysis of the attack threats, we will show the possibilities of an attacker to degrade the service provided by an RSerPool system. We will furthermore introduce possible countermeasures, in order to prevent attacks and improve the robustness of the systems. We will finally show the effectiveness of our proposed countermeasures using simulations. In order to validate our simulation results, we furthermore compare them to measurements from a real-world Internet setup using the PlanetLab.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/IJIIDS2010.pdf", url.size = "552265", url.md5 = "53f11ab53ddfed318568f99ab08ba5aa", url.mime = "application/pdf", url.pagesize = "595 x 842 pts (A4)", url.checked = "2014-04-02 17:08:23 CEST", note = "{ISSN} 1751-5858" } @Article{ IJMUE2009, author = "Wenyu Zhu and Thomas Dreibholz and Erwin Paul Rathgeb and Xing Zhou", title = "{A Scalable QoS Device for Broadband Access to Multimedia Services}", journal = "{SERSC International Journal of Multimedia and Ubiquitous Engineering~(IJMUE)}", volume = "4", number = "2", pages = "157--172", numpages = "16", day = "30", month = apr, year = "2009", language = "english", issn = "1975-0080", keywords = "Quality of Service~(QoS), Broadband Internet, Flow Routing, Multimedia, Intelligent Packet Discard", abstract = "{Nowadays, an increasing number of users gets high-speed broadband access to the Internet. These broadband connections make new multimedia applications possible. However, such applications also introduce new Quality of Service~(QoS) requirements to the network. Particularly, they require an assured bandwidth even in the case of network overload. The network itself has to provide such bandwidth assurances. This article introduces our concept of a novel network QoS device being located in network edge nodes. It provides a solution for relaxed QoS guarantees to certain flows on a congested link by focussing packet discard on selected flows. However, unlike for IntServ solutions like RSVP, our approach only requires minimal signalling and therefore provides both efficiency and scalability. We furthermore provide a quantitative performance evaluation of our QoS device by using simulations.}", url = "https://gvpress.com/journals/IJMUE/vol4_no2/14.pdf", url.size = "1106252", url.md5 = "3a8837e5ef699ddff971bcdfbf98b84b", url.mime = "application/pdf", url.pagesize = "595.22 x 842 pts (A4)", url.checked = "2014-04-02 17:08:22 CEST", note = "{ISSN} 1975-0080" } @InProceedings{ Infocom2005, author = "Thomas Dreibholz and Erwin Paul Rathgeb", title = "{An Application Demonstration of the Reliable Server Pooling Framework}", booktitle = "{Proceedings of the 24th IEEE International Conference on Computer Communications~(INFOCOM)}", numpages = "3", day = "16", month = mar, year = "2005", address = "Miami, Florida/U.S.A.", language = "english", note = "Demonstration and Poster Presentation", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/Infocom2005.pdf", url.size = "337447", url.md5 = "c9f22eb5c5bb8490a769e5b0d5af6766", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:17 CEST" } @InProceedings{ Infocom2016, author = "Simone Ferlin and Özgü Alay and David Andrew Hayes and Thomas Dreibholz and Michael Welzl", title = "{Revisiting Congestion Control for Multipath TCP with Shared Bottleneck Detection}", booktitle = "{Proceedings of the 35th IEEE International Conference on Computer Communications~(INFOCOM)}", pages = "2419--2427", numpages = "9", day = "14", month = apr, year = "2016", address = "San Francisco, California/U.S.A.", language = "english", isbn = "978-1-4673-9953-1", keywords = "Multi-Path TCP~(MPTCP), Shared Bottleneck Detection, Congestion Control, Coupled Congestion Control", abstract = "{Multipath TCP (MPTCP) enables the simultaneous usage of multiple links for bandwidth aggregation, better resource utilization and improved reliability. Its coupled congestion control intends to reap the increased bandwidth of multiple links, while avoiding to be more aggressive than regular TCP flows on every used link. We argue that this leads to a very conservative behavior when paths do not share a bottleneck. Therefore, in this paper, we first quantify the penalty of the coupled congestion control for the links that do not share a bottleneck. Then, in order to overcome this penalty, we design and implement a practical shared bottleneck detection (SBD) algorithm for MPTCP, namely MPTCP-SBD. Through extensive emulations, we show that MPTCP-SBD outperforms all currently deployed MPTCP coupled congestion controls by accurately detecting bottlenecks resulting in throughput gains of up to 30\% in the absence of shared bottlenecks while remaining fair to TCP in shared bottlenecks scenarios. We complement the emulation results with real-network experiments justifying it is safeness for deployment.}", url = "https://www.simula.no/file/infocom2016-webpdf/download", url.size = "1474548", url.md5 = "f60e8b176a4f13b368211d222ddc1969", url.mime = "application/pdf", url.pagesize = "612 x 792 pts (letter)", url.checked = "2016-05-31 09:05:00 CEST", note = "{ISBN} 978-1-4673-9953-1" } @InProceedings{ Infocom2020, author = "Paresh Saxena and Thomas Dreibholz and Harald Skinnemoen and Özgü Alay and Ángeles Vazquez-Castro and Simone Ferlin and Guray Acar", title = "{Resilient Hybrid SatCom and Terrestrial Networking for Unmanned Aerial Vehicles}", booktitle = "{Proceedings of the 39th IEEE International Conference on Computer Communications~(INFOCOM), International Workshop on Wireless Sensor, Robot and UAV Networks~(WiSARN)}", numpages = "6", day = "6", month = jul, year = "2020", address = "Toronto, Ontario/Canada", language = "english", isbn = "978-1-7281-8696-2", doi = "10.1109/INFOCOMWKSHPS50562.2020.9162943", abstract = "{Today, Unmanned Aerial Vehicles~(UAVs) are widely used in many different scenarios including search, monitoring, inspection, and surveillance. To be able to transmit the sensor data from the UAVs to the destination reliably within tangible response times to the relevant content is crucial, especially for tactical use cases. In this paper, we propose network coded torrents~(NECTOR) to leverage multiple network interfaces for resilient hybrid satellite communications~(SatCom) and terrestrial networking for UAVs. NECTOR is significantly different from the state-of-the-art multipath protocols such as multipath TCP~(MPTCP) as it does not require any additional packet scheduler, rate-adaptation or forward error correction. We present the design and implementation of NECTOR, and evaluate its performance compared to MPTCP. Our experimental results show that NECTOR provides goodput (up to 70\%) higher than MPTCP with 5.49~times less signaling overhead.}", url = "https://www.simula.no/file/infocom2020pdf/download", url.size = "1084331", url.md5 = "6b7cadc81a5a88b954f22389db33499b", url.mime = "application/pdf", url.pagesize = "612 x 792 pts (letter)", url.checked = "2020-03-30 20:50:45 CEST", note = "{ISBN} 978-1-7281-8696-2" } @InProceedings{ ITC2018, author = "Runa Barik and Michael Welzl and Ahmed Mustafa Elmokashfi and Thomas Dreibholz and Stein Gjessing", title = "{Can WebRTC QoS Work? A DSCP Measurement Study}", booktitle = "{Proceedings of the 30th International Teletraffic Congress~(ITC)}", pages = "167--175", numpages = "9", day = "6", month = sep, year = "2018", address = "Wien/Austria", language = "english", isbn = "978-0-9883045-5-0", doi = "10.1109/ITC30.2018.00034", keywords = "Measurement, Fling, DSCP, Ingress, Egress", abstract = "{DiffServ was designed to implement service provider quality of service (QoS) policies, where ingress and egress routers change the DiffServ Code Point (DSCP) in the IP header. However, nowadays, applications are beginning to directly set the DSCP themselves, in the hope that this will yield a more appropriate service for their respective video, audio and data streams. WebRTC is a prime example of such an application. As a first step towards understanding whether "WebRTC QoS works", we measured, for both IPv4 and IPv6, what happens to DSCP values along Internet paths. Our study is based on end-to-end measurements from 160 IPv4 and 65 IPv6 geographically spread controlled probe clients to 34 IPv4 and 18 IPv6 servers respectively. Clearly, when the DSCP value is changed, the net result may not be what the application desired. We find that this happens often, and conclude with recommendations on how to improve WebRTC and other applications using the DSCP.}", url = "https://www.simula.no/file/itc30pdf/download", url.size = "325160", url.md5 = "61250e710bd427bef09802e076ff4185", url.mime = "application/pdf", url.pagesize = "612 x 792 pts (letter)", url.checked = "2020-07-18 14:27:24 CEST", note = "{ISBN} 978-0-9883045-5-0" } @InProceedings{ IWQoS2014, author = "Simone Ferlin and Thomas Dreibholz and Özgü Alay", title = "{Tackling the Challenge of Bufferbloat in Multi-Path Transport over Heterogeneous Wireless Networks}", booktitle = "{Proceedings of the IEEE/ACM International Symposium on Quality of Service~(IWQoS)}", pages = "123--128", numpages = "6", day = "26", month = may, year = "2014", address = "Hong Kong/People's Republic of China", language = "english", isbn = "978-1-4799-4852-9", doi = "10.1109/IWQoS.2014.6914310", keywords = "Multi-Path Transport, Performance, Bufferbloat, Mobile Broadband Networks, MPTCP, NorNet Edge", abstract = "{Today, most of the smart phones are equipped with two network interfaces: Mobile Broadband~(MBB) and Wireless Local Area Network~(WLAN). Multi-path transport protocols provide increased throughput or reliability, by utilizing these interfaces simultaneously. However, multi-path transmission over networks with very different QoS characteristics is a challenge. In this paper, we studied Multi-Path TCP~(MPTCP) in heterogeneous networks, specifically MBB networks and WLAN. We first investigate the effect of bufferbloat in MBB on MPTCP performance. Then, we propose a bufferbloat mitigation algorithm: Multi-Path Transport Bufferbloat Mitigation~(MPT-BM). Using our algorithm, we conduct experiments in real operational networks. The experimental results show that MPT-BM outperforms the current MPTCP implementation by increasing the application goodput quality and decreasing MPTCP's buffer delay, jitter and buffer space requirements.}", url = "https://www.simula.no/file/simulasimula2722pdf/download", url.size = "839259", url.md5 = "41fdb83e1fa929ad9523504ea7b43402", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-12-12 18:14:47 CET", note = "{ISBN} 978-1-4799-4852-9" } @Misc{ Karlstad2012, author = "Thomas Dreibholz", title = "{The NorNet Project -- A Research Testbed for Multi-Homed Systems}", howpublished = "Invited Talk at Karlstads Universitet", numpages = "28", day = "2", month = nov, year = "2012", address = "Karlstad, Värmland/Sweden", language = "english", url = "https://www.simula.no/file/simulasimula1580pdf/download", url.size = "38312209", url.md5 = "7763b43963c32f78d4c99873855556ec", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2014-12-12 18:13:39 CET", url.keywords = "NorNet, NorNet Edge, NorNet Core, Testbed, Overview" } @InProceedings{ KiVS2007, author = "Thomas Dreibholz and Erwin Paul Rathgeb", title = "{On Improving the Performance of Reliable Server Pooling Systems for Distance-Sensitive Distributed Applications}", booktitle = "{Proceedings of the 15.~ITG/GI Fachtagung Kommunikation in Verteilten Systemen~(KiVS)}", series = "{Informatik aktuell}", pages = "39--50", numpages = "12", day = "28", month = feb, year = "2007", publisher = "Springer", address = "Bern/Switzerland", language = "english", isbn = "978-3-540-69962-0", doi = "10.1007/978-3-540-69962-0_4", keywords = "Reliable Server Pooling~(RSerPool), Server Selection, Load Distribution", abstract = "{Reliable Server Pooling~(RSerPool) is a protocol framework for server redundancy and session failover, currently under standardization by the IETF RSerPool WG. While the basic ideas of RSerPool are not new, their combination into a single, unified architecture is. Server pooling becomes increasingly important, because there is a growing amount of availability-critical applications. For a service to survive localized disasters, it is useful to place the servers of a pool at different locations. However, the current version of RSerPool does not incorporate the aspect of component distances in its server selection decisions. In our paper, we present an approach to add distance-awareness to the RSerPool architecture, based on features of the SCTP transport protocol. This approach is examined and evaluated by simulations. But to also show its usefulness in real life, we furthermore validate our proposed extension by measurements in a PlanetLab-based Internet scenario.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/KiVS2007.pdf", url.size = "401637", url.md5 = "724469ef1a2389ca1d3b3c4e96de5c89", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:18 CEST", note = "{ISBN} 978-3-540-69962-0" } @InProceedings{ KiVS2009, author = "Xing Zhou and Thomas Dreibholz and Wencai Du and Erwin Paul Rathgeb", title = "{Evaluation of Attack Countermeasures to Improve the DoS Robustness of RSerPool Systems by Simulations and Measurements}", booktitle = "{Proceedings of the 16.~ITG/GI Fachtagung Kommunikation in Verteilten Systemen~(KiVS)}", series = "{Informatik aktuell}", pages = "217--228", numpages = "12", day = "5", month = mar, year = "2009", publisher = "Springer", address = "Kassel, Hessen/Germany", language = "english", isbn = "978-3-540-92665-8", doi = "10.1007/978-3-540-92666-5_18", keywords = "Reliable Server Pooling~(RSerPool), Security, Attacks, Denial of Service, Robustness, Performance Analysis", abstract = "{The Reliable Server Pooling~(RSerPool) architecture is the IETF's new standard for a lightweight server redundancy and session failover framework to support availability-critical applications. RSerPool combines the ideas from different research areas into a single, resource-efficient and unified architecture. While there have already been a number of research papers on its performance in general, the robustness against intentional attacks has not been intensively addressed yet. In particular, there have not been any analyses for real setups. Therefore, the goal of this paper is to provide a robustness analysis in order to outline the attack bandwidth which is necessary for a significant impact on RSerPool-based services. This analysis is based on lab measurements -- using a real RSerPool system setup -- as well as on measurements for comparison and validation. Furthermore, we present and evaluate countermeasure approaches to significantly reduce the impact of attacks.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/KiVS2009.pdf", url.size = "481488", url.md5 = "75e82d6388aaef304f99eba50e33f69f", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:19 CEST", note = "{ISBN} 978-3-540-92665-8" } @Misc{ KTH2014, author = "Thomas Dreibholz", title = "{The NorNet Testbed -- An Overview for the GENI Meeting}", howpublished = "Invited Talk for the GENI Meeting at the Kungliga Tekniska högskolan~(KTH)", numpages = "31", day = "15", month = sep, year = "2014", address = "Stockholm/Sweden", language = "english", keywords = "NorNet, NorNet Core, NorNet Edge, Testbed, Multi-Homing, Multi-Path Transport, Overview", abstract = "{Multi-homing denotes the simultaneous connection of endpoints (e.g.~cloud servers, smartphones, etc.) to multiple Internet Service Providers~(ISP). That is, the endpoints remain reachable even when some of the ISPs have problems (e.g.~malfunction of hardware or break of cables). Besides the redundancy aspect, multi-homing can also make load sharing by multi-path transport possible, i.e.~increasing the application throughput by utilising multiple paths simultaneously. Multi-path transport can e.g.~be realised by Concurrent Multi-Path Transfer for SCTP~(CMT-SCTP) and Multi-Path TCP~(MPTCP), two protocols that are currently under standardisation in the IETF. The growing need for and deployment of multi-homed applications makes large-scale testing and evaluation in realistic Internet setups necessary. For instance, different paths can have very different characteristics with regard to bandwidth, packet loss rate, congestion, delay and jitter. Therefore, the NorNet project of the Simula Research Laboratory is building up an open platform for such experiments: the NorNet testbed. It consists of two parts: the wired part NorNet Core as well as the wireless part NorNet Edge, both parts provide programmable nodes with multiple ISP connections. These nodes are distributed all over Norway as well as some international locations. This talk will give an overview over the NorNet testbed and how it can be utilised for research on multi-homed systems.}", url = "https://www.simula.no/file/simulasimula3008pdf/download", url.size = "21559706", url.md5 = "3a4da9d27f89a7e6fd722230116b4e55", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2014-12-12 18:15:24 CET" } @InProceedings{ LCA2003, author = "Thomas Dreibholz and Michael Tüxen", title = "{High Availability using Reliable Server Pooling}", booktitle = "{Proceedings of the Linux Conference Australia~(LCA)}", numpages = "11", day = "24", month = jan, year = "2003", address = "Perth, Western Australia/Australia", language = "english", keywords = "Reliable Server Pooling~(RSerPool), Server Pooling, RSPLIB", abstract = "{Providing fault tolerancy is crucial for a growing number of IP-based applications. There exist a lot of proprietary solutions for this problem, but free alternatives are rare. Currently, the IETF RSerPool working group is standardizing a protocol suite for Reliable Server Pooling, which copes with the challenge of providing high availability by using redundant servers. Servers for the same service are grouped into a server pool. A server in a pool is called pool element (PE), a user of a pool is called pool user (PU). When a PE fails, its PUs simply select another one from the pool and initiates an application-specific failover procedure. This fail-over is supported by the RSerPool protocol suite. Each PE registers at a name server and is then continously supervised by that specific name server. All name servers of an operational scope provide a redundant system for name resolution from pool handles to transport addresses of pool elements to pool users. RSerPool uses SCTP to provide network fault tolerance and address scoping functionality. The RSPLIB is a prototype implementation of the RSerPool protocol suite, developed under the GNU Public License in cooperation between Siemens and the Computer Networking Technology Group of the University of Essen. It currently runs under Linux, FreeBSD and Darwin. Our paper covers aspects of designing and implementing highly available applications using RSerPool with our RSPLIB implementation. First, we will give an introduction to the RSerPool protocol suite and an overview of the RSPLIB components. Then, we describe the RSPLIB API, especially focussing on the implementation of pool element and pool user programs to provide high reliability. Furthermore, we show our current implementation status and future plans. This will be followed by a short look on the problems that can arise when the RSerPool architecture is used. Finally, we give an example how RSerPool can be used to realize highly available services. And last but not least, we show how distributed computing architectures can make use of the RSerPool architecture.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/RSerPool-Paper.pdf", url.size = "80645", url.md5 = "eac12b5e0912b99b881727f2fc096970", url.mime = "application/pdf", url.pagesize = "595 x 842 pts (A4)", url.checked = "2014-04-02 17:08:16 CEST" } @InProceedings{ LCN2002, author = "Thomas Dreibholz", title = "{An Efficient Approach for State Sharing in Server Pools}", booktitle = "{Proceedings of the 27th IEEE Local Computer Networks Conference~(LCN)}", pages = "348--349", numpages = "2", day = "8", month = nov, year = "2002", address = "Tampa, Florida/U.S.A.", language = "english", isbn = "0-7695-1591-6", doi = "10.1109/LCN.2002.1181806", keywords = "Reliable Server Pooling~(RSerPool), Server Pooling, State Sharing, Client-Based State Sharing, State Cookies", abstract = "{Many Internet services require high availability. Server pooling provides a high availability solution using redundant servers. If one server fails, the service is continued by another one. A challenge for server pooling is efficient state sharing: The new server requires the old one's state to continue service. This paper proposes a simple, efficient and scalable solution, usable for a large subset of applications.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/StateSharing-Paper-ShortVersion.pdf", url.size = "113237", url.md5 = "f1f40c62426deb84eb7dbe5a0d1d75c9", url.mime = "application/pdf", url.pagesize = "595 x 842 pts (A4)", url.checked = "2014-04-02 17:08:16 CEST", note = "{ISBN} 0-7695-1591-6" } @InProceedings{ LCN2003, author = "Thomas Dreibholz and Andreas Jungmaier and Michael Tüxen", title = "{A New Scheme for IP-based Internet Mobility}", booktitle = "{Proceedings of the 28th IEEE Local Computer Networks Conference~(LCN)}", pages = "99--108", numpages = "10", day = "22", month = oct, year = "2003", address = "Königswinter, Nordrhein-Westfalen/Germany", language = "english", isbn = "0-7695-2037-5", doi = "10.1109/LCN.2003.1243117", keywords = "Internet, Cellular Radio, Transport Protocols, Stream Control Transmission Protocol~(SCTP), Reliable Server Pooling~(RSerPool)", abstract = "{In this contribution we present a new type of mobility management for IP-based networks that, contrary to conventional approaches, does not focus on the network layer, but on the transport and session layers. At the heart of this new mobility concept is the reliable transport protocol SCTP, with an enhancement for dynamic address reconfiguration. This is described in this paper. A session layer based on the reliable server pooling (RSerPool) protocol suite provides for sessionmonitoring and control. The suggested solution is transparent for applications,requires no changes in the network infrastructure, and is evaluated with a real-world implementation. Finally, we present first results from the application of this mobility concept to different mobility scenarios. These were obtained from working SCTP and RSerPool implementations that have been developed within our group.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/LCN2003.pdf", url.size = "214280", url.md5 = "7b3fdad55551f9a7c57d8f92340ab14a", url.mime = "application/pdf", url.pagesize = "612 x 792 pts (letter)", url.checked = "2014-04-02 17:08:16 CEST", note = "{ISBN} 0-7695-2037-5" } @InProceedings{ LCN2005, author = "Thomas Dreibholz and Erwin Paul Rathgeb", title = "{On the Performance of Reliable Server Pooling Systems}", booktitle = "{Proceedings of the IEEE Conference on Local Computer Networks~(LCN) 30th Anniversary}", pages = "200--208", numpages = "9", day = "16", month = nov, year = "2005", address = "Sydney, New South Wales/Australia", language = "english", isbn = "0-7695-2421-4", doi = "10.1109/LCN.2005.98", keywords = "Reliable Server Pooling~(RSerPool), Server Pooling, Load Distribution, Performance Analysis, Parameter Sensitivity", abstract = "{Reliable Server Pooling (RSerPool) is a protocol framework for server redundancy and session failover, currently under standardization by the IETF RSerPool WG. While the basic ideas of RSerPool are not new, their combination into one architecture is. Some research into the performance of RSerPool for certain specific applications has been made, but a detailed, application-independent sensitivity analysis of the system parameters is still missing. The goal of this paper, after an application-independent, generic quantification of RSerPool systems and definition of performance metrics for both service provider and user, is to systematically investigate RSerPool's behavior on changes of workload and system parameters to give basic guidelines on designing efficient RSerPool systems.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/LCN2005.pdf", url.size = "688273", url.md5 = "a3b7091b716b5770343ca3e9bf205597", url.mime = "application/pdf", url.pagesize = "612 x 792 pts (letter)", url.checked = "2014-04-02 17:08:17 CEST", note = "{ISBN} 0-7695-2421-4" } @InProceedings{ LCN2005-EdgeDevice, author = "Thomas Dreibholz and Avril~J. IJsselmuiden and John~L. Adams", title = "{An Advanced QoS Protocol for Mass Content}", booktitle = "{Proceedings of the IEEE Conference on Local Computer Networks~(LCN) 30th Anniversary}", pages = "517--518", numpages = "2", day = "17", month = nov, year = "2005", address = "Sydney, New South Wales/Australia", language = "english", isbn = "0-7695-2421-4", doi = "10.1109/LCN.2005.25", keywords = "Quality of Service~(QoS), Signalling Protocols, Telecommunication Congestion Control, Telecommunication Traffic", abstract = "{This paper presents a novel network device being located in network edge nodes. It provides a solution for QoS guarantees to certain flows on a congested link by focussing packet discard on selected flows. Unlike IntServ solutions like RSVP, our approach only requires minimal signalling and provides both efficiency and scalability. In this paper, we first describe the ideas of our QoS device and then provide first results from a fast-track simulation model implementing a lightweight version of our approach.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/FlowRouting/Paper/LCN2005-EdgeDevice.pdf", url.size = "115300", url.md5 = "081882106105904aa7f496def9022c4e", url.mime = "application/pdf", url.pagesize = "612 x 792 pts (letter)", url.checked = "2014-04-02 17:08:17 CEST", note = "{ISBN} 0-7695-2421-4" } @InProceedings{ LCN2008-EdgeDevice, author = "Wenyu Zhu and Thomas Dreibholz and Erwin Paul Rathgeb", title = "{Analysis and Evaluation of a Scalable QoS Device for Broadband Access to Multimedia Services}", booktitle = "{Proceedings of the 33rd IEEE Conference on Local Computer Networks~(LCN)}", pages = "504--505", numpages = "2", day = "15", month = oct, year = "2008", address = "Montr{\'e}al, Qu{\'e}bec/Canada", language = "english", isbn = "978-1-4244-2413-9", doi = "10.1109/LCN.2008.4664212", keywords = "Quality of Service~(QoS), Broadband Internet, Flow Routing, Multimedia, Intelligent Packet Discard", abstract = "{This paper presents the initial evaluation of a novel network device being located in edge nodes. It provides relaxed QoS guarantees to certain flows on a congested link by focussing packet discard on selected flows. In contrast to classical IntServ solutions, our approach requires minimal signalling and therefore provides both efficiency and scalability. In this paper, we first describe the ideas of our QoS device and then provide first results of our ongoing simulative performance evaluation and optimization.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/FlowRouting/Paper/LCN2008-FlowRouting.pdf", url.size = "168995", url.md5 = "4b24ce40f15989ca57ccb44bdbdf4d82", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:19 CEST", note = "{ISBN} 978-1-4244-2413-9" } @InProceedings{ LCN2008-RSerPool, author = "Pascal Schöttle and Thomas Dreibholz and Erwin Paul Rathgeb", title = "{On the Application of Anomaly Detection in Reliable Server Pooling Systems for Improved Robustness against Denial of Service Attacks}", booktitle = "{Proceedings of the 33rd IEEE Conference on Local Computer Networks~(LCN)}", pages = "207--214", numpages = "8", day = "16", month = oct, year = "2008", address = "Montr{\'e}al, Qu{\'e}bec/Canada", language = "english", isbn = "978-1-4244-2413-9", doi = "10.1109/LCN.2008.4664171", keywords = "Reliable Server Pooling~(RSerPool), Anomaly Detection, Attacks, Robustness, Denial of Service", abstract = "{The Reliable Server Pooling~(RSerPool) architecture is the IETF's upcoming standard of a light-weight server redundancy and session failover framework for availability-critical applications. RSerPool combines the ideas from different research areas into a single, resource-efficient and unified architecture. Although there have already been a number of research papers on the pool management, load distribution and failover handling performance of RSerPool, the robustness against intentional attacks has not been intensively addressed yet. Therefore, the first goal of this paper is to provide a robustness analysis in order to outline the attack bandwidth necessary for a significant impact on RSerPool-based services. After that, we present our anomaly detection approach that has been designed to protect RSerPool systems against attacks. We also show the effectiveness of this approach by simulations.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/LCN2008.pdf", url.size = "576017", url.md5 = "8a883302aadb660fba4af49c65573c12", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:19 CEST", note = "{ISBN} 978-1-4244-2413-9" } @InProceedings{ LCN2020-CloudRAN-Demo, author = "Andrés Felipe Ocampo and Thomas Dreibholz and Mah-Rukh Fida and Ahmed Mustafa Elmokashfi and Haakon Bryhni", title = "{Integrating Cloud-RAN with Packet Core as VNF Using Open Source MANO and OpenAirInterface}", booktitle = "{Proceedings of the 45th IEEE Conference on Local Computer Networks~(LCN)}", type = "Demo presentation", numpages = "4", day = "18", month = nov, year = "2020", address = "Sydney, New South Wales/Australia", language = "english", keywords = "Cloud Radio Access Network (Cloud-RAN), Ethernet Xhaul, Functional Splits, Network Function Virtualisation (NFV), Open Source MANO (OSM), Fronthaul", abstract = "{The Cloud-based Radio Access Network (Cloud-RAN) architecture and Network Function Virtualization (NFV) are key enablers to building future mobile networks in a flexible and cost-efficient way. With early deployments of the fifth generation of mobile technologies - 5G - around the world, setting up 4G/5G experimental infrastructures is necessary to optimally design 5G networks. In this demo, we present a custom small-scale 4G/5G testbed based on OpenAirInterface and Open Source MANO. The testbed integrates a Cloud-RAN based on switched Ethernet Xhaul and functional splitting, with an Evolved Packet Core (EPC) deployed as a Virtual Network Function (VNF) in a cloud infrastructure. Using Open Source MANO, this demo shows the administration and monitoring of the EPC VNF components. Moreover, as proof of concept, collection and visualization of telemetry will be shown for two smart-phones connected to the network through the Cloud-RAN.}", url = "https://www.simula.no/file/lcn2020-simulametepc-demo-webpdf/download", url.size = "439801", url.md5 = "0c6e5c6588aedf71fe9af3a9997a9d99", url.mime = "application/pdf", url.pagesize = "612 x 792 pts (letter)", url.checked = "2020-11-04 18:08:11 CET" } @InProceedings{ LCN2020-HENCSAT-Demo, author = "Thomas Dreibholz and Paresh Saxena and Harald Skinnemoen", title = "{Efficient Network Coding for Satellite Applications: A Live Demo of HENCSAT and NECTOR}", booktitle = "{Proceedings of the 45th IEEE Conference on Local Computer Networks~(LCN)}", type = "Demo presentation", numpages = "3", day = "18", month = nov, year = "2020", address = "Sydney, New South Wales/Australia", language = "english", keywords = "Unmanned Aerial Vehicles, Satellite Communications, Network Coding, HENCSAT, NECTOR, Live Demo", abstract = "{Satellite communication is available anywhere on earth, allowing connectivity to systems like Unmanned Aerial Vehicles (UAV) in very remote geographical areas. However, satellite airtime is expensive, and a reduction of the amount of transmitted data can lead to significant cost savings. The goal of the Highly-Efficient Network Coding for Satellite Applications (HENCSAT) project is to reduce such costs by using our approach Network Coding with Torrents (NECTOR). NECTOR combines network coding, Torrent-based transmission, and H.265 highly efficient video encoding. In our demonstration, we would like to showcase NECTOR in an interactive HENCSAT test bench setup.}", url = "https://www.simula.no/file/lcn2020-hencsat-demo-webpdf/download", url.size = "2051346", url.md5 = "bd6a2b2ee60c0057091e35fdb3d1c683", url.mime = "application/pdf", url.pagesize = "612 x 792 pts (letter)", url.checked = "2020-11-04 17:36:07 CET" } @InProceedings{ LCN2020-PCDC, author = "Min Chen and Thomas Dreibholz and Xing Zhou and Xuelei Yang", title = "{Improvement and Implementation of a Multi-Path Management Algorithm Based on MPTCP}", booktitle = "{Proceedings of the 45th IEEE Conference on Local Computer Networks~(LCN)}", numpages = "10", day = "16", month = nov, year = "2020", address = "Sydney, New South Wales/Australia", language = "english", keywords = "MPTCP, Multi-path Management, PCDC, Subflow Impact Factor, Data Stream Classification", abstract = "{The core idea of Multi-Path Transmission Control Protocol (MPTCP) is to share network resources by distributing payload data transmission among multiple subflows. Then, multiple paths in the underlying network can be used to maximize the overall connection throughput. However, the concurrent transmission of not all subflows aggregation can improve network performance, because of the performance difference of each subflow. In this paper, we propose a new FullMesh algorithm based on Path Characteristic and Data Characteristic (PCDC), in which the Subflow Impact Factor (IF) is used as a subflow characteristic to predict the impact of the subflow on the overall throughput. Then, different path sets are adopted for different sizes of traffic. The PCDC algorithm is evaluated in the NorNet Core testbed, compared with the FullMesh algorithm. Our research results show that the PCDC algorithm can improve the network throughput, and reduce the overall completion time of small data streams.}", url = "https://www.simula.no/file/lcn2020-pathmgt-webpdf/download", url.size = "538587", url.md5 = "d6ac16601873ae7788bddd205d65e70d", url.mime = "application/pdf", url.pagesize = "612 x 792 pts (letter)", url.checked = "2020-10-25 15:14:52 CET", days = "15" } @InProceedings{ LinuxCon2016, author = "Thomas Dreibholz", title = "{NorNet -- Building an Inter-Continental Internet Testbed based on Open Source Software}", booktitle = "{Proceedings of the LinuxCon Europe}", numpages = "36", day = "5", month = oct, year = "2016", address = "Berlin/Germany", language = "english", keywords = "NorNet Testbed, Multi-Path Transport, Resilience, Virtualisation, Linux, Open Source", abstract = "{NorNet is an open, international Internet testbed platform for research on multi-homed systems. Multi-homed systems have the property of being connected to multiple Internet Service Providers~(ISP) simultaneously, in order to still provide connectivity in case of ISP/network failures. Basis of NorNet is Linux, together with other Open Source software. At the moment, the testbed infrastructure spreads over 21~sites on 4~continents. NorNet makes extensive use of advanced Linux features like virtualisation, file system features, routing rules, SCTP, MPTCP, and more. The global distribution creates further challenges. Goal of this talk is therefore to provide an overview of the problems that occurred when building the testbed, as well as solutions and lessons learned from solving these challenges. The idea is to present guidelines for utilising the advanced Linux features in own projects.}", url = "https://www.simula.no/file/linuxcon2016-presentationpdf/download", url.size = "9816526", url.md5 = "835722bb90f2cf4e0aab67be150396b5", url.mime = "application/pdf", url.pagesize = "794 x 446 pts", url.checked = "2016-10-05 23:05:08 CEST" } @InProceedings{ LinuxTag2005, author = "Thomas Dreibholz", title = "{Das rsplib--Projekt -- Hochverfügbarkeit mit Reliable Server Pooling}", booktitle = "{Proceedings of the LinuxTag}", numpages = "19", day = "24", month = jun, year = "2005", address = "Karlsruhe, Baden-Württemberg/Germany", language = "german", keywords = "Reliable Server Pooling~(RSerPool)", abstract = "{In unserem Paper geben wir zunächst eine Einführung zu Reliable Server Pooling~(RSerPool), danach stellen wir unsere Implementation vor -- das rsplib-Projekt. Im Anschluß daran zeigen wir, wie basierend auf unserer Implementation eigene, hochverfügbare Anwendungen mit RSerPool entwickelt werden können -- begleitet durch Code-Beispiele. Zum Abschluß stellen wir noch eine unserer Beispielanwendungen vor.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/LinuxTag2005.pdf", url.size = "1181504", url.md5 = "7e2afb7bb1cc82c458c4ac8217d3f8d0", url.mime = "application/pdf", url.pagesize = "595 x 842 pts (A4)", url.checked = "2014-04-02 17:08:17 CEST" } @InProceedings{ LinuxTag2011, author = "Thomas Dreibholz", title = "{Server-Redundanz und Lastverteilung einfach in eigene Anwendungen integrieren -- mit Reliable Server Pooling und RSPLIB}", booktitle = "{Proceedings of the LinuxTag}", numpages = "23", day = "12", month = may, year = "2011", address = "Berlin/Germany", language = "german", keywords = "Reliable Server Pooling~(RSerPool), Hochverfügbarkeit, Redundanz, Überblick, Implementierung, RSPLIB", abstract = "{RSPLIB ist die Open-Source-Implementierung von Reliable Server Pooling~(RSerPool), dem noch sehr neuen IETF-Standard für Server-Redundanz und Sitzungsverwaltung. Dieser Artikel soll insbesondere zeigen, wie RSerPool mit RSPLIB in eigenen Anwendungen für Hochverfügbarkeit und Lastverteilung eingesetzt werden kann. Im Rahmen des Vortrags soll zudem eine Beispielanwendung in der Praxis demonstriert werden.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/LinuxTag2011.pdf", url.size = "1339942", url.md5 = "7a76c18c786514b2dea9ca272ecc7bbc", url.mime = "application/pdf", url.pagesize = "595 x 842 pts (A4)", url.checked = "2014-04-02 17:08:23 CEST" } @InProceedings{ Linuxtage2006, author = "Thomas Dreibholz", title = "{RSPLIB -- Eine Open Source Implementation von Reliable Server Pooling}", booktitle = "{Proceedings of the Linuxtage in Essen}", numpages = "28", day = "9", month = sep, year = "2006", address = "Essen, Nordrhein-Westfalen/Germany", language = "german", keywords = "Reliable Server Pooling~(RSerPool), Hochverfügbarkeit, Redundanz, Überblick, Implementierung, RSPLIB", abstract = "{In unserem Vortrag geben wir zunächst eine kurze Einführung zu RSerPool. Dabei wollen wir insbesondere auch die Merkmale verdeutlichen, die RSerPool von existierenden Lösungen -- wie Linux Virtual Server (LVS) oder dem kommerziellen Cisco Distributed Director -- unterscheiden. Außerdem wollen wir vorstellen, welche speziellen Funktionalitäten RSerPool bietet um den Nutzen eines Serverpools sowohl für dessen Betreiber als auch für den Anwender zu optimieren: die Möglichkeit zur vollautomatischen Konfiguration von Komponenten und die Festlegung pool-spezifischer Serverauswahlregeln. Diese Funktionalitäten werden wir am Beispiel der Anwendung von RSerPool für Real-Time Distributed Computing verdeutlichen. Im zweiten Teil unseres Vortrages werden wir auf unsere Open Source Implementation rsplib eingehen. Neben dem Aufbau der einzelnen Komponenten werden wir insbesondere auch interessante Details der Implementation vorstellen und beschreiben, wie wir auftretende Probleme erfolgreich lösen konnten. Insbesondere wollen wir dabei auch unsere gesammelten Erfahrungen beim Erstellen von auf unterschiedlichen Betriebssystemen und Hardware lauffähiger Software vorstellen. Im Anschluß daran wenden wir uns kurz dem API der rsplib zu und zeigen, wie eigene Programme mit dessen Hilfe hochverfügbar gemacht werden können. Neben neuer, direkt auf RSerPool basierender Software, berücksichtigen wir dabei insbesondere auch die Anpassung bestehender Applikationen und stellen Möglichkeiten zur Migration vor. Zum besseren Verständnis werden sämtliche Beschreibungen von Code-Beispielen begleitet. Zum Abschluß stellen wir noch unsere Beispielanwendung vor, ein System zum verteilten Berechnen von Fraktalgrafiken. Mit diesem System lassen sich die grundlegenden Eigenschaften von RSerPool – welche im ersten Teil des Vortrages vorgestellt wurden -- sehr anschaulich demonstrieren: die Verwaltung dynamischer Pools, Lastverteilung und Failover bei PE-Ausfall. Selbstverständlich werden wir unser Beispielsystem beim Vortrag auch praktisch demonstrieren.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/Linuxtage2006.pdf", url.size = "8056603", url.md5 = "c46a9dddc3e7d30f4ab0a8f5372d405b", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2014-04-02 17:08:18 CEST" } @InProceedings{ Linuxtage2007, author = "Thomas Dreibholz", title = "{Hochverfügbarkeit mit Reliable Server Pooling}", booktitle = "{Proceedings of the Linuxtage in Essen}", numpages = "23", day = "10", month = nov, year = "2007", address = "Essen, Nordrhein-Westfalen/Germany", language = "german", keywords = "Reliable Server Pooling~(RSerPool), Hochverfügbarkeit, Redundanz, Überblick, Implementierung, RSPLIB", abstract = "{Mit der ständig wachsenden Verbreitung von Internetzugängen nimmt auch die Anzahl an verfügbarkeits-kritischen Diensten im Netz zu. Ausfälle von z.B. VoIP-Vermittlungsanlagen zur Weiterleitung von Notrufen oder e-Commerce-Anwendungen sind nicht akzeptabel. Zur Sicherstellung der Verfügbarkeit von Diensten bei Geräte- und Netzwerkausfällen müssen diese Komponenten redundant ausgelegt sein. Spezialisierte Redundanzlösungen – insbesondere z.B. für Web-Server – gibt es zwar viele, eine einheitliche, für viele Dienste nutzbare Lösung fehlte jedoch noch. Reliable Server Pooling, abgekürzt RSerPool, ist ein Rahmenwerk zur Bereitstellung hochverfügbarer Anwendungen durch redundante Server, es befindet sich zur Zeit in der Standardisierung durch die IETF RSerPool-Arbeitsgruppe. Im RSerPool-Konzept werden Server, welche den gleichen Dienst anbieten, zu einem Pool zusammengefaßt. Neben der Hauptaufgabe – der Verfügbarkeit von Diensten – ist insbesondere auch die Lastverteilung ein wichtiges Anwendungsgebiet von RSerPool. Im Rahmen eines Forschungsprojektes haben wir -- die Arbeitsgruppe Technik der Rechnernetze am Institut für Experimentelle Mathematik der Universität Duisburg-Essen -- im Jahre 2002 damit begonnen, einen plattformunabhängigen RSerPool-Prototypen als Open Source unter GPL-Lizenz zu entwickeln. Mittlerweile wird unser Projekt durch die Deutsche Forschungsgemeinschaft (DFG) gefördert. Unser System läuft zur Zeit unter Linux, FreeBSD, Darwin (MacOS X) und Solaris, wobei die Unterstützung für weitere Plattformen – insbesondere auch für Embedded-Systeme – geplant ist. Als einzige vollständige Implementierung des zukünftigen RSerPool-Standards sind wir Referenzimplementierung der IETF RSerPool-Arbeitsgruppe und wirken mit Tests und Forschungsarbeiten aktiv in der Standardisierung mit. In unserem Vortrag geben wir zunächst eine kurze Einführung zu RSerPool. Dabei wollen wir insbesondere auch die Merkmale verdeutlichen, die RSerPool von existierenden Lösungen – wie Linux Virtual Server (LVS) oder dem kommerziellen Cisco Distributed Director – unterscheiden. Außerdem wollen wir zeigen, welche speziellen Funktionalitäten RSerPool bietet um den Nutzen eines Serverpools sowohl für dessen Betreiber als auch für den Anwender zu optimieren: die Möglichkeit zur vollautomatischen Konfiguration von Komponenten und die Festlegung pool-spezifischer Serverauswahlregeln. Diese Funktionalitäten werden wir am Beispiel einer Anwendung von RSerPool für Real-Time Distributed Computing verdeutlichen. Im zweiten Teil unseres Vortrags werden wir auf unsere Open Source Implementierung rsplib eingehen. Neben dem Aufbau der einzelnen Komponenten werden wir insbesondere auch interessante Details der Implementierung vorstellen und beschreiben, wie wir auftretende Probleme erfolgreich lösen konnten. Insbesondere wollen wir dabei auch unsere gesammelten Erfahrungen beim Erstellen von auf unterschiedlichen Betriebssystemen (Linux, FreeBSD, MacOS X, Solaris) und Hardware (x86, x64, PPC) lauffähiger Software vorstellen. Im Anschluß daran zeigen wir, wie das RSerPool-API dazu genutzt werden kann, eigene Anwendungen hochverfügbar zu machen und die Möglichkeiten zur Lastverteilung im Pool verwendet werden können. Ein Schwerpunkt dieser Einführung wird dabei insbesondere die einfache und effiziente Realisierung des Failover-Mechanisms sein, d.h. des Verfahrens zur Wiederherstellung eines Sitzungszustandes auf einem neuen Server nach Ausfall des alten. Im Besonderen werden wir dabei zeigen, welche Fähigkeiten RSerPool und sein API mitbringen um dieses – teilweise recht komplexe Thema – in vielen Fällen übersichtlich und mit wenigen Zeilen Programmcode zu lösen: Hochverfügbarkeit für eigene Anwendungen muß nicht kompliziert sein! Zum Abschluß stellen wir noch unsere Beispielanwendung vor, ein System zum verteilten Berechnen von Fraktalgrafiken. Mit diesem System lassen sich die grundlegenden Eigenschaften von RSerPool – welche im Vortrag vorgestellt wurden – sehr anschaulich demonstrieren: die Verwaltung dynamischer Pools, Lastverteilung und Failover bei Serverausfall. Selbstverständlich werden wir unser Beispielsystem beim Vortrag auch in der Praxis demonstrieren, bei Vorhandensein eines Internetzugangs sogar mit einem Szenario aus weltweit verteilten Ressourcen.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/Linuxtage2007.pdf", url.size = "7925544", url.md5 = "7882ef3b335f592778b19b6d3f3c0796", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2014-04-02 17:08:19 CEST" } @InProceedings{ Louvain2013, author = "Thomas Dreibholz and Simone Ferlin", title = "{The NorNet Research Testbed}", howpublished = "Talk", booktitle = "{Proceedings of the CHANGE Bootcamp Workshop}", numpages = "8", day = "17", month = jul, year = "2013", address = "Louvain-la-Neuve/Belgium", language = "english", url = "https://www.simula.no/file/simulasimula2046pdf/download", url.size = "12302859", url.md5 = "d6ee4ec1a6e0f3b30afbe4ac8e24aeac", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2014-12-12 18:14:08 CET", url.keywords = "NorNet, NorNet Edge, NorNet Core, Testbed, Overview" } @InProceedings{ M2EC2019-MultiCloud, author = "Jiangshui Hong and Thomas Dreibholz and Joseph Adam Schenkel and Jiaxi Alessia Hu", title = "{An Overview of Multi-Cloud Computing}", booktitle = "{Proceedings of the 1st International Workshop on Recent Advances for Multi-Clouds and Mobile Edge Computing~(M2EC) in conjunction with the 33rd International Conference on Advanced Information Networking and Applications~(AINA)}", pages = "1055--1068", numpages = "14", day = "27", month = mar, year = "2019", address = "Matsue, Shimane/Japan", language = "english", isbn = "978-3-030-15034-1", doi = "10.1007/978-3-030-15035-8_103", keywords = "Cloud Computing, Multi-Cloud, Hybrid Cloud, Federated Clouds, Big Data", abstract = "{The purpose of this paper is to provide a brief overview of cloud computing technologies, particularly with respect to multi-cloud networks. First, the basics of cloud computing concepts are discussed. Next we outline some challenges facing cloud computing, and discuss how multi-cloud systems including multi-clouds, hybrid clouds, federated clouds, and cross-clouds may be used to deal with some of these issues. Finally, multi-cloud systems may also be used in conjunction with new developing technologies such as Big Data and Machine Learning, leading to exciting innovations. These are reviewed in brief. Our goal is to provide a modern look at the state of the art in multi-cloud computing and review open issues in the field. The goal is that this paper will help the reader to understand challenges facing cloud computing, how multi-cloud computing addresses some of these issues, and inspire community excitement at the future integration of multi-cloud platforms with other novel technologies.}", url = "https://www.simula.no/file/m2ec2019-multicloudpdf-0/download", url.size = "110832", url.md5 = "505f5129e8c349000eb61cdb22572cf2", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2019-11-14 13:24:08 CET", note = "{ISBN} 978-3-030-15034-1" } @InProceedings{ M2EC2019-VideoStreaming, author = "Yu Luo and Xing Zhou and Thomas Dreibholz and Hanbao Kuang", title = "{A Real-Time Video Streaming System over IPv6+MPTCP Technology}", booktitle = "{Proceedings of the 1st International Workshop on Recent Advances for Multi-Clouds and Mobile Edge Computing~(M2EC) in conjunction with the 33rd International Conference on Advanced Information Networking and Applications~(AINA)}", pages = "1007--1019", numpages = "13", day = "27", month = mar, year = "2019", address = "Matsue, Shimane/Japan", language = "english", isbn = "978-3-030-15034-1", doi = "10.1007/978-3-030-15035-8_99", keywords = "Video Streaming Platform, IPv6, MPTCP, Load Balancing, Resilience", abstract = "{Today, a steadily increasing number of users are not just passively consuming Internet content, but also share and publish content. Users publish text, photos and videos. With the availability of 5G high-speed, low-latency mobile broadband networks, real-time video streaming will also be possible. We believe this will become a very popular application in the coming years. But the more popular a service is, the higher the need for resilience. In this paper, we introduce our work-in-progress live video streaming platform for future mobile edge computing scenarios, which makes use of MPTCP+IPv6 to support multi-homing for resilience and multi-path transport for load balancing. As a proof of concept, we will show that the platform is (1) compatible with IPv6, (2) utilizes load balancing when possible and (3) provides robustness by network redundancy.}", url = "https://www.simula.no/file/m2ec2019-videostreamingpdf/download", url.size = "216080", url.md5 = "724099429d06664fda7dab312b962cf2", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2019-01-28 14:16:45 CET", note = "{ISBN} 978-3-030-15034-1" } @InProceedings{ M2EC2020, author = "Thomas Dreibholz", title = "{Flexible 4G/5G Testbed Setup for Mobile Edge Computing using OpenAirInterface and Open Source MANO}", booktitle = "{Proceedings of the 2nd International Workshop on Recent Advances for Multi-Clouds and Mobile Edge Computing~(M2EC) in conjunction with the 34th International Conference on Advanced Information Networking and Applications~(AINA)}", pages = "1143--1153", numpages = "11", day = "15", month = apr, year = "2020", address = "Caserta, Campania/Italy", language = "english", isbn = "978-3-030-44037-4", doi = "10.1007/978-3-030-44038-1_105", keywords = "Mobile Edge Computing, Network Function Virtualisation, Evolved Packet Core, Open Source MANO, OpenAirInterface, 5G", abstract = "{Setting up a working 4G/5G mobile network development testbed can be a highly complicated and error-prone task. In this paper, we therefore introduce our open source Virtual Network Function (VNF) for an OpenAirInterface-based Evolved Packet Core (EPC) for deployment with the Open Source Management and Orchestration (Open Source MANO, OSM) framework. By using our VNF as basis, it will be easily possible to create own testbeds and extend them with further functionality, particularly – but not limited to – Mobile Edge Computing (MEC) setups. In a simple proof of concept, we demonstrate a basic transport protocol performance evaluation in a deployed test network.}", url = "https://www.simula.no/file/m2ec2020pdf/download", url.size = "233071", url.md5 = "8af945e9913ec42f2d69d8a0fa22b42c", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2020-02-18 12:32:17 CET", note = "{ISBN} 978-3-030-44037-4" } @Misc{ M5G-2020-Workshop, author = "Thomas Dreibholz", title = "{Custom-Made Enhanced Packet Cores as Network Services for 4G/5G Testbeds managed with Open Source MANO}", howpublished = "Presentation at the Mosaic5G Workshop", numpages = "13", day = "3", month = dec, year = "2020", language = "english", keywords = "Network Function Virtualisation, Evolved Packet Core, Open Source MANO, OpenAirInterface, 5G", abstract = "{Setting up Enhanced Packet Cores (EPC) -- like the Mosaic5G OpenAirInterface-based EPC -- for 4G/5G Testbeds is a complicated and error-prone task. Therefore, we developed the SimulaMet OpenAirInterface VNF, a complex 4-VDU VNF, which upon instantiation builds the components of the EPC from scratch from given source Git repositories. That is, based on the parametrisation, users can easily create tailor-made EPCs for their projects, particularly EPCs based on the Mosaic5G FlexRAN sources. In this presentation, we would like to shortly highlight the solutions chosen to efficiently use OSM for handling the instantiation process, performing telemetry, and debugging issues. That is, we particularly would like to present to the Mosaic5G audience some lessons learned during the ongoing development.}", url = "https://www.simula.no/file/m5g-2020-presentationpdf/download", url.size = "4321338", url.md5 = "a0cddc5183325e6585df53943d0592df", url.mime = "application/pdf", url.pagesize = "720 x 405.071 pts", url.checked = "2020-12-03 11:00:52 CET" } @InProceedings{ MELODIC-Warsaw2017, author = "Thomas Dreibholz", title = "{Testing Applications with the NorNet Infrastructure}", booktitle = "{Proceedings of the MELODIC Plenary Meeting}", numpages = "15", day = "21", month = sep, year = "2017", address = "Warszawa, Masovia/Poland", language = "english", keywords = "Cloud Computing, MELODIC, Multi-Homing, NorNet Core, NorNet Testbed, OpenStack", abstract = "{This talk gives a short overview over the possibilities of testing applications in the NorNet infrastructure. Furthermore, it presents a short overview of the ongoing work on integrating NorNet Core with the MELODIC multi-cloud infrastructure.}", url = "https://www.simula.no/file/melodic-warsaw2017pdf/download", url.size = "12282757", url.md5 = "d7f500252a941682c5de800875a9e1c3", url.mime = "application/pdf", url.pagesize = "793.672 x 595.247 pts", url.checked = "2017-09-21 11:08:48 CEST" } @Article{ MPTCPBlog2015, author = "Thomas Dreibholz", title = "{NetPerfMeter: A Network Performance Metering Tool}", journal = "{Multipath TCP Blog}", day = "7", month = sep, year = "2015", language = "english", keywords = "Software, NetPerfMeter, Multi-Path Transfer, Multi-Path TCP~(MPTCP)", abstract = "{A common problem for evaluating multiple transport protocols in a multi-platform environment is to have a test tool that is capable to run in all these environments, and – of course – to support all necessary protocols. Using different evaluation tools is not a good solution, since each tool may introduce its own – and possibly incompatible – parametrisation scheme. In order to overcome this problem, originally for the use case of evaluating the Stream Control Transmission Protocol (SCTP) and compare it to the Transmission Control Protocol (TCP), NetPerfMeter has been designed and developed. This blog article provides an introduction to NetPerfMeter.}", url = "http://blog.multipath-tcp.org/blog/html/2015/09/07/netperfmeter.html", url.size = "20077", url.md5 = "383ce2668d7de6ea2da8083be8eacfcd", url.mime = "text/html", url.checked = "2015-09-11 11:05:58 CEST" } @InProceedings{ MSN2004, author = "Thomas Dreibholz", title = "{Policy Management in the Reliable Server Pooling Architecture}", booktitle = "{Proceedings of the Multi-Service Networks Conference~(MSN, Coseners)}", numpages = "17", day = "8", month = jul, year = "2004", address = "Abingdon, Oxfordshire/United Kingdom", language = "english", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/MSN2004-Final-with-Examples.pdf", url.size = "5047827", url.md5 = "0bfcc62620e0a0abd20ad6d18e2c4ce1", url.mime = "application/pdf", url.pagesize = "780 x 540 pts", url.checked = "2014-04-02 17:08:17 CEST", url.keywords = "RSerPool, Policies, Namespace Management" } @InProceedings{ MSN2016, author = "Thomas Dreibholz", title = "{NorNet -- The Internet Testbed for Multi-Homed Systems}", booktitle = "{Proceedings of the Multi-Service Networks Conference~(MSN, Coseners)}", numpages = "16", day = "8", month = jul, year = "2016", address = "Abingdon, Oxfordshire/United Kingdom", language = "english", keywords = "NorNet, NorNet Core, NorNet Edge, Testbed, Multi-Homing, Introduction, Overview", abstract = "{Multi-homing denotes the simultaneous connection of endpoints (e.g.~cloud servers, smartphones, etc.) to multiple Internet Service Providers~(ISP). That is, the endpoints remain reachable even when some of the ISPs have problems (e.g.~malfunction of hardware or break of cables). Besides the redundancy aspect, multi-homing can also make load sharing by multi-path transport possible, i.e.~increasing the application throughput by utilising multiple paths simultaneously. Multi-path transport can e.g.~be realised by Concurrent Multi-Path Transfer for SCTP~(CMT-SCTP) and Multi-Path TCP~(MPTCP), two protocols that are currently under standardisation in the IETF. The growing need for and deployment of multi-homed applications makes large-scale testing and evaluation in realistic Internet setups necessary. For instance, different paths can have very different characteristics with regard to bandwidth, packet loss rate, congestion, delay and jitter. Therefore, the NorNet project of the Simula Research Laboratory is building up an open platform for such experiments: the NorNet testbed. It provides programmable nodes with multiple ISP connections -- wired as well as wireless -- that are distributed all over Norway as well as some international locations. This talk will give an overview over NorNet.}", url = "https://www.simula.no/file/msn2016-presentationpdf/download", url.size = "11465832", url.md5 = "693855de478247f1b9ac6be6e93c2af5", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2016-07-08 10:19:06 CEST" } @Misc{ Narvik2013, author = "Thomas Dreibholz", title = "{An Introduction to NorNet for the Site Deployment at Høgskolen i Narvik}", howpublished = "Invited Talk at Høgskolen i Narvik~(HiN)", numpages = "26", day = "12", month = mar, year = "2013", address = "Narvik, Nordland/Norway", language = "english", url = "https://www.simula.no/file/simulasimula1950pdf/download", url.size = "21954435", url.md5 = "cd9f90c43fe2be66e12153d9bf38e460", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2014-04-02 17:08:51 CEST", url.keywords = "NorNet, NorNet Edge, NorNet Core, Testbed, Overview" } @InProceedings{ NBiS2015, author = "Hakim Adhari and Thomas Dreibholz and Sebastian Werner and Erwin Paul Rathgeb", title = "{Eclipse: A New Dynamic Delay-based Congestion Control Algorithm for Background Traffic}", booktitle = "{Proceedings of the 18th International Conference on Network-Based Information Systems~(NBiS)}", pages = "115--123", numpages = "9", day = "2", month = sep, year = "2015", address = "Taipei/Taiwan", language = "english", isbn = "978-1-4799-9942-2", doi = "10.1109/NBiS.2015.21", keywords = "Background Traffic, Congestion Control, Delay-based Congestion Control, Less-than-Best-Effort Service", abstract = "{Initially, the Internet transport protocol TCP has been designed to provide a ``best effort'' service: it is meant to share the network resources with other users and applications. However, there is nowadays also a growing demand for transmitting big amounts of data in the background, namely background transport that uses spare capacity, but with minimal effect on other traffic. For instance, systems can proactively download content that the user/system would need in the future (e.g.\ update packages, video files, etc.). Efforts have therefore been made in the IETF for the sake of such a service with Low Extra Delay Background Traffic~(LEDBAT) congestion control. While LEDBAT works in some cases, there are however known situations where it causes serious performance problems, particularly in combination with the ubiquitous bufferbloat for example in current broadband networks. In this paper, we analyse the issues of LEDBAT and propose a new approach for background traffic. Inspired by an astronomical event, we have named this approach Eclipse. Unlike LEDBAT, Eclipse can dynamically adapt to the network characteristics not only to minimise the additional network delay but also to maximise the utilisation of spare network capacity. We will show the usefulness of Eclipse by simulations.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/Forschung/NBIS2015-Eclipse.pdf", url.size = "1107041", url.md5 = "d189576ba3280e5a18c578e807edbbee", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2015-07-07 17:20:38 CEST", note = "{ISBN} 978-1-4799-9942-2" } @TechReport{ NetPerfMeterSim2012, author = "Thomas Dreibholz and Hakim Adhari and Martin Becke and Erwin Paul Rathgeb", title = "{NetPerfMeter -- A Versatile Tool for Multi-Protocol Network Performance Evaluations}", type = "OMNeT++ Code Contribution", numpages = "3", day = "8", month = feb, year = "2012", institution = "University of Duisburg-Essen, Institute for Experimental Mathematics", language = "english", keywords = "Application Model, NetPerfMeter, Performance Evaluation, Multipath Transfer", abstract = "{Transport Layer protocols supporting multipath transfer, i.e.\ to simultaneously utilise multiple Network Layer paths, are actively discussed in the IETF -- particularly in the context of Multi-Path~TCP~(MPTCP) and Concurrent Multipath Transfer for SCTP~(CMT-SCTP). Congestion control for such protocols is an important research topic. In this code contribution paper, we introduce our application model NetPerfMeter. NetPerfMeter has been developed for performance evaluations of different transport protocols, like for the Linux/FreeBSD performance metering application NetPerfMeter.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/SCTP/Paper/NetPerfMeterSim2012.pdf", url.size = "341735", url.md5 = "dc5a70671636b3367df1a2878f6081fd", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:25 CEST" } @InProceedings{ Networking2008, author = "Thomas Dreibholz and Erwin Paul Rathgeb and Xing Zhou", title = "{On Robustness and Countermeasures of Reliable Server Pooling Systems against Denial of Service Attacks}", booktitle = "{Proceedings of the 7th International IFIP Networking Conference}", series = "{Lecture Notes in Computer Science}", volume = "4982", pages = "586--598", numpages = "13", day = "7", month = may, year = "2008", publisher = "Springer", address = "Singapore", language = "english", isbn = "978-3-540-79548-3", doi = "10.1007/978-3-540-79549-0_51", keywords = "Reliable Server Pooling, Attacks, Denial of Service, Robustness, Countermeasures", abstract = "{The Reliable Server Pooling~(RSerPool) architecture is the IETF's novel approach to standardize a light-weight protocol framework for server redundancy and session failover. It combines ideas from different research areas into a single, resource-efficient and unified architecture. While there have already been a number of contributions on the performance of RSerPool for its main tasks -- pool management, load distribution and failover handling -- the robustness of the protocol framework has not yet been evaluated against intentional attacks. The first goal of this paper is to provide a robustness analysis. In particular, we would like to outline the attack bandwidth necessary for a significant impact on the service. Furthermore, we present and evaluate our countermeasure approach to significantly reduce the impact of attacks.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/Networking2008.pdf", url.size = "490453", url.md5 = "185b4404904fcb988d4c237634f2c1aa", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:19 CEST", note = "{ISBN} 978-3-540-79548-3" } @Misc{ NICTA2015, author = "Thomas Dreibholz", title = "{NorNet at NICTA -- An Open, Large-Scale Testbed for Multi-Homed Systems}", howpublished = "Invited Talk at National Information Communications Technology Australia~(NICTA)", numpages = "38", day = "15", month = jan, year = "2015", address = "Sydney, New South Wales/Australia", language = "english", keywords = "NorNet, NorNet Core, NorNet Edge, Testbed, Multi-Homing, Introduction, Status", abstract = "{Multi-homing denotes the simultaneous connection of endpoints (e.g.\ cloud servers, smartphones, etc.) to multiple Internet Service Providers~(ISP). That is, the endpoints remain reachable even when some of the ISPs have problems (e.g. malfunction of hardware or break of cables). Besides the redundancy aspect, multi-homing can also make load sharing by multi-path transport possible, i.e.\ increasing the application throughput by utilising multiple paths simultaneously. Multi-path transport can e.g.\ be realised by Concurrent Multi-Path Transfer for SCTP~(CMT-SCTP) and Multi-Path TCP~(MPTCP), two protocols that are currently under standardisation in the IETF. The growing need for and deployment of multi-homed applications makes large-scale testing and evaluation in realistic Internet setups necessary. For instance, different paths can have very different characteristics with regard to bandwidth, packet loss rate, congestion, delay and jitter. Therefore, the NorNet project of the Simula Research Laboratory is building up an open platform for such experiments: the NorNet testbed. It provides programmable nodes with multiple ISP connections -- wired as well as wireless -- that are distributed all over Norway as well as some international locations. This talk will give an overview over NorNet with a focus on its usage for research on multi-path transport. Particularly, it will also show how the NorNet testbed can be utilised for research at NICTA.}", url = "https://www.simula.no/file/nicta2015-presentation-webpdf/download", url.size = "6701414", url.md5 = "377dc3c9d7d13031bab6c3dbb4e54309", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2015-02-28 10:39:27 CET" } @Misc{ NICTA2016-Presentation, author = "Thomas Dreibholz", title = "{NorNet at NICTA -- An Introduction to the NorNet Testbed}", howpublished = "Invited Talk at National Information Communications Technology Australia~(NICTA)", numpages = "38", day = "22", month = jan, year = "2016", address = "Sydney, New South Wales/Australia", language = "english", keywords = "NorNet, NorNet Core, NorNet Edge, Testbed, Multi-Homing, Introduction, Status", abstract = "{Multi-homing denotes the simultaneous connection of endpoints (e.g.~cloud servers, smartphones, etc.) to multiple Internet Service Providers~(ISP). That is, the endpoints remain reachable even when some of the ISPs have problems (e.g.~malfunction of hardware or break of cables). Besides the redundancy aspect, multi-homing can also make load sharing by multi-path transport possible, i.e.~increasing the application throughput by utilising multiple paths simultaneously. Multi-path transport can e.g.~be realised by Concurrent Multi-Path Transfer for SCTP~(CMT-SCTP) and Multi-Path TCP~(MPTCP), two protocols that are currently under standardisation in the IETF. The growing need for and deployment of multi-homed applications makes large-scale testing and evaluation in realistic Internet setups necessary. For instance, different paths can have very different characteristics with regard to bandwidth, packet loss rate, congestion, delay and jitter. Therefore, the NorNet project of the Simula Research Laboratory is building up an open platform for such experiments: the NorNet testbed. It provides programmable nodes with multiple ISP connections -- wired as well as wireless -- that are distributed all over Norway as well as some international locations. This talk will give an overview over NorNet. Particularly, it will also show how the NorNet testbed can be utilised for research at National Information Communications Technology Australia~(NICTA)}", url = "https://www.simula.no/file/nicta2016-presentationpdf/download", url.size = "13723941", url.md5 = "553d4072d3381f6d460a73f25ddfb77f", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2016-01-22 18:44:45 AEDT" } @Misc{ NICTA2016-Tutorial, author = "Thomas Dreibholz", title = "{An Experiment Tutorial for the NorNet Core Testbed at NICTA}", howpublished = "Tutorial at National Information Communications Technology Australia~(NICTA)", numpages = "27", day = "22", month = jan, year = "2016", address = "Sydney, New South Wales/Australia", language = "english", keywords = "NorNet, NorNet Core, Testbed, Multi-Homing, Multi-Path Transport, Tutorial", abstract = "{This tutorial -- presented at National Information Communications Technology Australia~(NICTA) -- provides an introduction on how to get access to the NorNet Core testbed as well as how to run experiments in the testbed.}", url = "https://www.simula.no/file/nicta2016-tutorialpdf/download", url.size = "4238917", url.md5 = "a4017ee0d66b87416e5c0c8921d94957", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2016-01-22 18:50:35 AEDT" } @InProceedings{ NNUW1-Dreibholz-NorNetCore-Introduction, author = "Thomas Dreibholz", title = "{The NorNet Core Testbed – Introduction and Status}", booktitle = "{Proceedings of the 1st International NorNet Users Workshop~(NNUW-1)}", numpages = "29", day = "18", month = sep, year = "2013", address = "Fornebu, Akershus/Norway", language = "english", keywords = "NorNet, NorNet Core, Testbed, Multi-Homing, Multi-Path Transport, Introduction", url = "https://www.simula.no/file/simulasimula2124pdf/download", url.size = "8599639", url.md5 = "5c700705b018d485706b49a66b9d1a0c", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2014-04-02 17:09:21 CEST", url.keywords = "NorNet, NorNet Core, Testbed, Introduction, Status" } @InProceedings{ NNUW1-Dreibholz-NorNetCore-Tutorial, author = "Thomas Dreibholz", title = "{The NorNet Core Testbed – An Experiment Tutorial}", booktitle = "{Proceedings of the 1st International NorNet Users Workshop~(NNUW-1)}", numpages = "25", day = "19", month = sep, year = "2013", address = "Fornebu, Akershus/Norway", language = "english", abstract = "{This tutorial provides an introduction on how to get access to the NorNet Core testbed as well as how to run experiments in the testbed.}", url = "https://www.simula.no/file/simulasimula2130pdf/download", url.size = "4560635", url.md5 = "f67a3e0e340f676c96c4486cf5308000", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2014-12-12 18:14:23 CET", url.keywords = "NorNet, NorNet Core, Testbed, Introduction, Status" } @InProceedings{ NNUW2-Alay-Multipath-Transport, author = "Özgü Alay and Simone Ferlin and Thomas Dreibholz", title = "{Multipath Transport over Heterogeneous Networks}", booktitle = "{Proceedings of the 2nd International NorNet Users Workshop~(NNUW-2)}", numpages = "37", day = "29", month = aug, year = "2014", address = "Fornebu, Akershus/Norway", language = "english", url = "https://www.simula.no/file/simulasimula2970pdf/download", url.size = "3000207", url.md5 = "3b1f2c76b82d27ee2eb7c4830a489783", url.mime = "application/pdf", url.pagesize = "720 x 540 pts", url.checked = "2014-12-12 18:15:18 CET" } @InProceedings{ NNUW2-Dreibholz-NorNetCore-Introduction, author = "Thomas Dreibholz", title = "{The NorNet Core Testbed – Introduction and Status in August 2014}", booktitle = "{Proceedings of the 2nd International NorNet Users Workshop~(NNUW-2)}", numpages = "32", day = "28", month = aug, year = "2014", address = "Fornebu, Akershus/Norway", language = "english", keywords = "NorNet, NorNet Core, Testbed, Multi-Homing, Multi-Path Transport, Introduction", abstract = "{This talk provides an introduction to the NorNet Core testbed as well as a status overview on the development and deployment in August 2014.}", url = "https://www.simula.no/file/simulasimula2936pdf/download", url.size = "15206147", url.md5 = "e2f018deb04a839bf93f842bb729d012", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2014-12-12 18:15:14 CET" } @InProceedings{ NNUW2-Dreibholz-NorNetCore-Tutorial, author = "Thomas Dreibholz", title = "{An Experiment Tutorial for the NorNet Core Testbed}", booktitle = "{Proceedings of the 2nd International NorNet Users Workshop~(NNUW-2)}", numpages = "26", day = "29", month = aug, year = "2014", address = "Fornebu, Akershus/Norway", language = "english", keywords = "NorNet, NorNet Core, Testbed, Multi-Homing, Multi-Path Transport, Tutorial", abstract = "{This tutorial provides an introduction on how to get access to the NorNet Core testbed as well as how to run experiments in the testbed.}", url = "https://www.simula.no/file/simulasimula2938pdf/download", url.size = "6177702", url.md5 = "9711b4f32dd9a2c4946aa4aeceeac31c", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2014-12-12 18:15:16 CET" } @InProceedings{ NNUW3-Dreibholz-NorNetCore-Status, author = "Thomas Dreibholz", title = "{The NorNet Core Testbed: A Status Update for the NNUW-3}", booktitle = "{Proceedings of the 3rd International NorNet Users Workshop~(NNUW-3)}", numpages = "16", day = "28", month = aug, year = "2015", address = "Fornebu, Akershus/Norway", language = "english", keywords = "NorNet, NorNet Core, Testbed, Multi-Homing, Multi-Path Transport, Status", abstract = "{This talk provides an update on the NorNet Core testbed development and research for the 3rd NorNet Users Workshop~(NNUW-3) in August 2015.}", url = "https://www.simula.no/file/nnuw3-dreibholzpdf/download", url.size = "12410734", url.md5 = "6137dcfde02ba8d35ed6db1d17cf4b17", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2015-08-31 22:52:03 CEST" } @InProceedings{ NoF2014, author = "Forough Golkar and Thomas Dreibholz and Amund Kvalbein", title = "{Measuring and Comparing Internet Path Stability in IPv4 and IPv6}", booktitle = "{Proceedings of the 5th IEEE International Conference on the Network of the Future~(NoF)}", pages = "1--5", numpages = "5", day = "4", month = dec, year = "2014", address = "Paris/France", language = "english", isbn = "978-1-4799-7531-0", doi = "10.1109/NOF.2014.7119767", keywords = "NorNet Core, Internet, IPv4, IPv6, Path Stability, Resilience, Robustness", abstract = "{In just about 4 years, IPv6 will celebrate its 20th anniversary. While the protocol itself is already quite old, its deployment has only recently picked up speed. Not so many Internet service providers offer direct IPv6 connectivity to their customers, yet. Clearly, when IPv6 is available to customers, they expect that IPv6 offers at least the same -- or even better -- stability of connections in comparison to IPv4. The main goal of this paper is to investigate whether this is true today. In our paper, we present up-to-date measurement results on the stability of IPv4 and IPv6 paths in the real Internet, based on machines that are distributed over a large geographical area, as part of the NorNet Core testbed infrastructure for multi-homed systems. The measurements not only cover high-speed research networks, but also consumer-grade ADSL connections -- i.e. the ISP connection types of "normal" end-users -- as well as a broad range of different ISPs. The measurements show that IPv6 paths are less stable than corresponding IPv4 paths. We also find that the use of load balancing is more prevalent in IPv6 than in IPv4.}", url = "https://www.simula.no/file/simulasimula3048pdf/download", url.size = "445912", url.md5 = "e94bfd5f13ed1ab81ac86b90fc1bbfe1", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-12-12 18:15:26 CET", note = "{ISBN} 978-1-4799-7531-0" } @InProceedings{ NOMS2012, author = "Martin Becke and Thomas Dreibholz and Hakim Adhari and Erwin Paul Rathgeb", title = "{A Future Internet Architecture supporting Multipath Communication Networks}", booktitle = "{Proceedings of the 13th IEEE/IFIP Network Operations and Management Symposium~(NOMS)}", pages = "639--642", numpages = "4", day = "19", month = apr, year = "2012", address = "Maui, Hawaii/U.S.A.", language = "english", isbn = "978-1-4673-0268-5", doi = "10.1109/NOMS.2012.6211975", keywords = "Future Internet, Multipath Communications, Encapsulated Responsibility-Centric Architecture Model~(ERiCA), Responsibilities, Decision Domains", abstract = "{The classic layered OSI reference model has reached its limits for the Internet of today. In this paper, we propose a clean-slate conceptual design of a new architecture as a contribution to the ongoing discussion on the Future Internet. We address the shortcomings of the layered model by redesigning the classical model. Our approach differs from the concepts found in prior work, which focus on special parts of the problems (such as the application, the service or the event) by staggering back a couple of steps and trying to see the requirements from a different perspective. Our concept -- which is denoted as Encapsulated Responsibility-Centric Architecture Model~(ERiCA) -- focuses on determining the responsibilities by using different planes in addition to a partitioning of the network into different decision domains. With this partitioning, we can reduce the complexity of providing a certain service.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/SCTP/Paper/NOMS2012.pdf", url.size = "760254", url.md5 = "0d471bef76ec8ae66b71f28e254deb82", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:25 CEST", note = "{ISBN} 978-1-4673-0268-5" } @InProceedings{ NTW2015, author = "Thomas Dreibholz", title = "{The NorNet Experimentation Platform for Multi-Homed Systems}", booktitle = "{Proceedings of the NORDUnet Technical Workshop~(NTW)}", numpages = "30", day = "17", month = sep, year = "2015", address = "København/Denmark", language = "english", keywords = "NorNet, NorNet Core, NorNet Edge, Testbed, Multi-Homing, Introduction, Status", abstract = "{Multi-homing denotes the simultaneous connection of endpoints (e.g.~cloud servers, smartphones, etc.) to multiple Internet Service Providers~(ISP). That is, the endpoints remain reachable even when some of the ISPs have problems (e.g.~malfunction of hardware or break of cables). Besides the redundancy aspect, multi-homing can also make load sharing by multi-path transport possible, i.e.~increasing the application throughput by utilising multiple paths simultaneously. Multi-path transport can e.g.~be realised by Concurrent Multi-Path Transfer for SCTP~(CMT-SCTP) and Multi-Path TCP~(MPTCP), two protocols that are currently under standardisation in the IETF. The growing need for and deployment of multi-homed applications makes large-scale testing and evaluation in realistic Internet setups necessary. For instance, different paths can have very different characteristics with regard to bandwidth, packet loss rate, congestion, delay and jitter. Therefore, the NorNet project of the Simula Research Laboratory is building up an open platform for such experiments: the NorNet testbed. It provides programmable nodes with multiple ISP connections -- wired as well as wireless -- that are distributed all over Norway as well as some international locations. This talk will give an overview over NorNet. Particularly, it will also show how the NorNet testbed can be utilised for research by the Nordic community.}", url = "https://www.simula.no/file/ntw2015pdf/download", url.size = "14713347", url.md5 = "2a3f1bda015fcf850cd2f5adb3571cad", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2015-09-17 15:03:00 CEST" } @Misc{ NYU2014, author = "Thomas Dreibholz", title = "{The NorNet Testbed -- Overview and Selected Results from Multi-Path Transport Research}", howpublished = "Invited Talk at the New York University~(NYU), Polytechnic School of Engineering", numpages = "35", day = "5", month = may, year = "2014", address = "Brooklyn, New York/U.S.A.", language = "english", keywords = "NorNet, NorNet Core, NorNet Edge, Testbed, Multi-Homing, Overview, Research, Multi-Path TCP, MPTCP", abstract = "{Multi-homing denotes the simultaneous connection of endpoints (e.g.~cloud servers, smartphones, etc.) to multiple Internet Service Providers~(ISP). That is, the endpoints remain reachable even when some of the ISPs have problems (e.g.~malfunction of hardware or break of cables). Besides the redundancy aspect, multi-homing can also make load sharing by multi-path transport possible, i.e.~increasing the application throughput by utilising multiple paths simultaneously. In order to evaluate and test mulit-homed systems, the Simula Research Laboratory is currently building up the NorNet testbed. It consists of distributed research nodes located all over the country of Norway as well as some international locations, providing researchers the possibility to run experiments in real-world, multi-homed Internet setups. In this talk, we first introduce the NorNet testbed as well as its deployment status. After that, we present some research results of the ongoing research at the Simula Research Laboratory on multi-path transport with Multi-Path TCP~(MPTCP). Particularly, it will also show how the NorNet testbed can be utilized for research at the New York University~(NYU) as well.}", url = "https://www.simula.no/file/simulasimula2728pdf/download", url.size = "6586299", url.md5 = "5d1741a4f975c75f90314627e8d516fd", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2014-12-12 18:14:51 CET" } @InProceedings{ OMNeT++Workshop2008, author = "Thomas Dreibholz and Erwin Paul Rathgeb", title = "{A Powerful Tool-Chain for Setup, Distributed Processing, Analysis and Debugging of OMNeT++ Simulations}", booktitle = "{Proceedings of the 1st ACM/ICST International Workshop on OMNeT++}", numpages = "8", day = "7", month = mar, year = "2008", address = "Marseille, Bouches-du-Rhône/France", language = "english", isbn = "978-963-9799-20-2", doi = "10.4108/ICST.SIMUTOOLS2008.2990", keywords = "SimProcTC, Simulation Model, Parametrization, Simulation Run Distribution, Plotting, Analysis", abstract = "{In this paper, we introduce our Open Source tool-chain providing the parametrization, distributed execution, results post-processing and debugging for OMNeT++-based simulations. While the initial motivation of these tools has been the support of our simulation model of the Reliable Server Pooling~(RSerPool) framework, it has been particularly designed with model-independence in mind. That is, it can be easily adapted to other simulation models and therefore may be useful for other users of OMNeT++-based simulation models as well.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/OMNeTWorkshop2008.pdf", url.size = "570674", url.md5 = "23f563d708ab1eb3f55d6dd21ef4eee4", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:19 CEST", note = "{ISBN} 978-963-9799-20-2" } @InProceedings{ OMNeT++Workshop2009, author = "Thomas Dreibholz and Xing Zhou and Erwin Paul Rathgeb", title = "{SimProcTC -- The Design and Realization of a Powerful Tool-Chain for OMNeT++ Simulations}", booktitle = "{Proceedings of the 2nd ACM/ICST International Workshop on OMNeT++}", pages = "1--8", numpages = "8", day = "6", month = mar, year = "2009", address = "Rome/Italy", language = "english", isbn = "978-963-9799-45-5", doi = "10.4108/ICST.SIMUTOOLS2009.5517", keywords = "SimProcTC, Simulation, Parametrization, Run Distribution, Results Visualization", abstract = "{In this paper, we introduce our Open Source simulation tool-chain for OMNeT++ simulations: SimProcTC. This model-independent tool-chain has been designed to perform the common and frequently recurring tasks of simulation work -- which are the parametrization of runs, the distributed run processing and the results visualization -- in an efficient and easy to use manner. It is already successfully deployed for several OMNeT++-based research projects.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/OMNeT__Workshop2009.pdf", url.size = "564894", url.md5 = "1ec4aec2824e6f4d11f1e1af9a8d3991", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:20 CEST", note = "{ISBN} 978-963-9799-45-5" } @InProceedings{ OMNeT++Workshop2010-SCTP, author = "Thomas Dreibholz and Martin Becke and Jobin Pulinthanath and Erwin Paul Rathgeb", title = "{Implementation and Evaluation of Concurrent Multipath Transfer for SCTP in the INET Framework}", booktitle = "{Proceedings of the 3rd ACM/ICST International Workshop on OMNeT++}", numpages = "8", day = "19", month = mar, year = "2010", address = "Torremolinos, M{\'a}laga/Spain", language = "english", isbn = "978-963-9799-87-5", doi = "10.4108/ICST.SIMUTOOLS2010.8673", keywords = "INET Framework, SCTP, Concurrent Multipath Transfer, Model, Evaluation", abstract = "{The steadily growing importance of resilience-critical Internet applications leads to a rising number of multi-homed sites and systems. But since the protocols of the classical Internet -- particularly TCP -- assume a single access path only, the number of programs supporting multiple network paths is still small. The Stream Control Transport Protocol~(SCTP), which is an advanced general-purpose transport protocol and the possible successor of TCP, brings the support of multi-homing into the applications. For technical reasons, SCTP uses one network path for data transmission and utilizes the other paths for backup only. An extension to support the load balancing of user data onto multiple paths in order to increase the payload throughput is Concurrent Multipath Transfer for SCTP, denoted as CMT-SCTP. In this paper, we describe our CMT-SCTP extension for the SCTP~model provided by the INET framework. By using proof-of-concept simulations, we furthermore demonstrate its usability and configuration parameters.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/SCTP/Paper/OMNeT__Workshop2010-SCTP.pdf", url.size = "600864", url.md5 = "910129c4f8742f16aa603347276bcf90", url.mime = "application/pdf", url.pagesize = "612 x 792 pts (letter)", url.checked = "2014-04-02 17:08:22 CEST", note = "{ISBN} 978-963-9799-87-5" } @InProceedings{ OMNeT++Workshop2010-TCP, author = "Thomas Reschka and Thomas Dreibholz and Martin Becke and Jobin Pulinthanath and Erwin Paul Rathgeb", title = "{Enhancement of the TCP Module in the OMNeT++/INET Framework}", booktitle = "{Proceedings of the 3rd ACM/ICST International Workshop on OMNeT++}", numpages = "5", day = "19", month = mar, year = "2010", address = "Torremolinos, M{\'a}laga/Spain", language = "english", isbn = "978-963-9799-87-5", keywords = "OMNeT++, INET Framework, TCP, Selective Acknowledgement, Flow Control", abstract = "{The INET framework for the simulation tool OMNeT++ provides a TCP module, which can be used for evaluating various Internet applications. However, the implementation of this TCP module has not been state of the art. Some important features of modern TCP implementations -- particularly Selective Acknowledgements~(SACK) and a complete Flow Control -- have been missing. In this paper, we first introduce basic TCP mechanisms. After that, we introduce the extensions we have made to the TCP module of INET. Finally, we show some results of our performance evaluation.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/SCTP/Paper/OMNeT__Workshop2010-TCP.pdf", url.size = "594971", url.md5 = "53c126fdf4f77d433ef5f7601dea5b60", url.mime = "application/pdf", url.pagesize = "612 x 792 pts (letter)", url.checked = "2014-04-02 17:08:22 CEST", note = "{ISBN} 978-963-9799-87-5" } @Misc{ OSMHackfest10, author = "Thomas Dreibholz and Andrés Felipe Ocampo", title = "{Managing Tailor-Made Enhanced Packet Cores for 4G/5G Testbeds in OSM with the SimulaMet OpenAirInterface VNF}", howpublished = "Presentation at the OSM Hackfest", numpages = "22", day = "2", month = dec, year = "2020", language = "english", keywords = "Network Function Virtualisation, Evolved Packet Core, Open Source MANO, OpenAirInterface, 5G", abstract = "{The SimulaMet OpenAirInterface VNF is a complex 4-VDU VNF, allowing its users to instantiate and maintain a tailor-made Enhanced Packet Core (EPC) for 4G/5G mobile broadband testbeds. The EPC components are directly built from their sources during instantiation, allowing to use customised versions according to the users' needs. A general overview has already been presented during the OSM Hackfest in March 2020. In this presentation and live demonstration, we would like to highlight the solutions chosen to efficiently use OSM for handling the instantiation process, provide telemetry, and to debug issues. That is, we particularly would like to present to the audience the lessons learned during the ongoing development. Finally, we would also like to show the audience a live demo of an OSM-managed 4G testbed setup with telemetry collection.}", url = "https://www.simula.no/file/osmhackfest10-presentationpdf/download", url.size = "7529579", url.md5 = "9a49992810016c554185721a8f70f12f", url.mime = "application/pdf", url.pagesize = "720 x 405.071 pts", url.checked = "2020-12-03 10:59:59 CET" } @Misc{ OSMHackfest9, author = "Thomas Dreibholz", title = "{Easily Setting up 4G/5G Testbeds with OpenAirInterface using OSM}", howpublished = "Presentation at the OSM Hackfest", numpages = "16", day = "11", month = mar, year = "2020", address = "Madrid/Spain", language = "english", keywords = "Network Function Virtualisation, Evolved Packet Core, Open Source MANO, OpenAirInterface, 5G", abstract = "{Setting up 4G/5G testbeds can be a highly complicated and error-prone task. In this presentation, we introduce our Open Source VNF and tool-chain for an OpenAirInterface-based EPC to be deployed with the OSM framework. Using our VNF and tool-chain as basis, it will be easily possible to create own testbeds, customise them and extend them with further functionalities.}", url = "https://osm-download.etsi.org/ftp/osm-7.0-seven/MR8-hackfest/Ecosystem-Day/E4-5G\%20TestBeds-Simula.pdf", url.size = "3174250", url.md5 = "b2bdba640baf216815370dc8ad70734f", url.mime = "application/pdf", url.pagesize = "720 x 405.071 pts", url.checked = "2020-03-13 17:14:59 CET" } @InProceedings{ PAMS2011, author = "Hakim Adhari and Thomas Dreibholz and Martin Becke and Erwin Paul Rathgeb and Michael Tüxen", title = "{Evaluation of Concurrent Multipath Transfer over Dissimilar Paths}", booktitle = "{Proceedings of the 1st International Workshop on Protocols and Applications with Multi-Homing Support~(PAMS)}", pages = "708--714", numpages = "7", day = "22", month = mar, year = "2011", address = "Singapore", language = "english", isbn = "978-0-7695-4338-3", doi = "10.1109/WAINA.2011.92", keywords = "Concurrent Multipath Transfer, Dissimilar Paths, Buffer Handling, Performance Analysis, Experimental Validation", abstract = "{The steadily growing deployment of resilience-critical Internet services is leading to an increasing number of Multi-Homed network sites. Asymmetric Digital Subscriber Lines~(ADSL) are an inexpensive way to add a secondary Internet access connection. With the development of Multi-Path Transport Layer protocols -- like Multipath~TCP~(MPTCP) and the Stream Control Transmission Protocol~(SCTP) furnished by a Concurrent Multipath Transfer~(CMT-SCTP) extension -- there is also a strong interest in utilising all access connections simultaneously to improve the data throughput of the applications. However, combining network paths over ADSL with paths over other access technologies like fibre optic links implies highly dissimilar paths with significantly different bandwidths, delays and queuing behaviours. Efficient Multi-Path transport over such dissimilar paths is a challenging task for the new Transport Layer protocols under development. In this paper, we show the difficulties of Multi-Path transport in a real-world dissimilar path setup which consists of a high-speed fibre optic link and an ADSL connection. After that, we present an optimised buffer handling technique which solves the transport efficiency issues in this setup. Our optimisation is first analysed by simulations. Finally, we also show the usefulness of our approach by experimental evaluation in a real Multi-Homed Internet setup.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/SCTP/Paper/PAMS2011.pdf", url.size = "681374", url.md5 = "a19f952606b97dc19de3870e7af038ca", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:23 CEST", note = "{ISBN} 978-0-7695-4338-3" } @InProceedings{ PAMS2012, author = "Thomas Dreibholz and Hakim Adhari and Martin Becke and Erwin Paul Rathgeb", title = "{Simulation and Experimental Evaluation of Multipath Congestion Control Strategies}", booktitle = "{Proceedings of the 2nd International Workshop on Protocols and Applications with Multi-Homing Support~(PAMS)}", numpages = "6", day = "29", month = mar, year = "2012", address = "Fukuoka/Japan", language = "english", isbn = "978-0-7695-4652-0", doi = "10.1109/WAINA.2012.186", keywords = "Multipath Transfer, Congestion Control, Performance Analysis, Simulation, Measurement", abstract = "{The need for service resilience is leading to a steadily growing number of multi-homed Internet sites. In consequence, this results in a growing demand for utilising multiple Internet accesses simultaneously, in order to improve application payload throughput during normal operation. Multi-path Transport Layer protocol extensions -- like Multi-Path~TCP~(MPTCP) for TCP and Concurrent Multipath Transfer for SCTP~(CMT-SCTP) -- allow applications to make use of such network topologies. However, since TCP -- which constitutes the basis of most Internet applications -- and its congestion control procedures have been designed under the assumption of single-homed sites, fairness issues may arise by the usage of multipath transport. These issues are addressed by advanced congestion control approaches, which have already been examined by simulations. However, real-life network measurements are missing. In this paper, we perform an experimental proof-of-concept evaluation of several multipath congestion control strategies, which are currently under discussion within the IETF in the context of MPTCP as well as CMT-SCTP. Particularly, we validate effects that have been observed in simulations, in order to trigger further discussions on multipath congestion control. Also, our goal is to provide insight into the different approaches to support the ongoing IETF standardisation activities on multipath transport protocols.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/SCTP/Paper/PAMS2012.pdf", url.size = "412422", url.md5 = "9f0ed4e466615996b4e65ccb10ec3c7d", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:25 CEST", note = "{ISBN} 978-0-7695-4652-0" } @InProceedings{ PAMS2013-NorNet, author = "Thomas Dreibholz and Ernst Gunnar Gran", title = "{Design and Implementation of the NorNet Core Research Testbed for Multi-Homed Systems}", booktitle = "{Proceedings of the 3nd International Workshop on Protocols and Applications with Multi-Homing Support~(PAMS)}", pages = "1094--1100", numpages = "7", day = "27", month = mar, year = "2013", address = "Barcelona, Catalonia/Spain", language = "english", isbn = "978-0-7695-4952-1", doi = "10.1109/WAINA.2013.71", keywords = "NorNet, Testbed, Multi-Homing, Design, Implementation", abstract = "{The Internet has made it possible to communicate and to use services over large geographical distances. While it has originally been built for less critical services like e-mail and file transfer, it is nowadays also increasingly often used for availability-critical services like e.g.\ e-commerce or healthcare. Clearly, the reachability of such services must be ensured by so-called multi-homing of endpoints. That is, endpoints are simultaneously connected to multiple Internet Service Providers~(ISP) to provide redundancy. If one ISP has problems, it is intended that the connection to another one still works. However, such assumptions have never been verified in real, large-scale setups. The intention of the NorNet project is to build up a realistic Internet testbed for multi-homing. In this paper, we describe the design of NorNet with focus on the implementation of its fixed-line part: NorNet Core. This paper is intended to give researchers an overview of its mode of operation, its capabilities as well as its interesting feature realisations. The knowledge about these items is very useful to plan own experiments in the NorNet testbed.}", url = "https://www.simula.no/file/threfereedinproceedingsreference2012-12-207643198512pdf/download", url.size = "20563001", url.md5 = "6560234f120c9c1e0166928b1c13e400", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2015-02-28 11:05:48 CET", note = "{ISBN} 978-0-7695-4952-1" } @InProceedings{ PAMS2014-LEDBAT, author = "Hakim Adhari and Sebastian Werner and Thomas Dreibholz and Erwin Paul Rathgeb", title = "{LEDBAT-MP -- On the Application of Lower-than-Best-Effort for Concurrent Multipath Transfer}", booktitle = "{Proceedings of the 4th International Workshop on Protocols and Applications with Multi-Homing Support~(PAMS)}", numpages = "7", day = "16", month = may, year = "2014", address = "Victoria, British Columbia/Canada", language = "english", isbn = "978-1-4799-2652-7", doi = "10.1109/WAINA.2014.125", keywords = "Multi-Path Transfer, Congestion Control, Background Traffic, CMT-SCTP, MPTCP", abstract = "{The Internet is based on best effort communication, i.e.\ it tries to deliver packets but does not provide any guarantees. A transport protocol can make use of this best effort service to provide a suitable service to its applications. Also, its congestion control is responsible for a fair distribution of the resources within the Internet. However, background data transfer applications (like file sharing or update fetching) do not require "best effort", they in fact could use a "lower-than-best-effort" service to leave resources to more important applications if needed. For this purpose, the Low Extra Delay Background Transport~(LEDBAT) algorithm has been standardized by the IETF. Nowadays, multi-homing is becoming increasingly common in modern networks and several approaches to exploit this feature (e.g.\ CMT-SCTP, MPTCP) have evolved that are able to combine resources of multiple paths. For background traffic oriented algorithms like LEDBAT, this feature could be of great use, too, i.e.\ by increasing the overall bandwidth while shifting the transmission away from paths which are used by other flows. This could be particularly useful for non-critical bulk transfers in data centres. In this paper, we introduce our approach LEDBAT for Multi-Path -- denoted as LEDBAT-MP -- and analyze its performance by simulations. With this paper, we want to highlight some generic design questions and start a discussion on how a solid universal background multi-path congestion control strategy should behave.}", url = "https://www.simula.no/file/simulasimula2512pdf/download", url.size = "1258366", url.md5 = "dfdfcfef3b476f3d9aad8215ef058662", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-12-12 18:14:34 CET", page = "765--771", note = "{ISBN} 978-1-4799-2652-7" } @InProceedings{ PAMS2014-NorNetEdge, author = "Simone Ferlin and Thomas Dreibholz and Özgü Alay and Amund Kvalbein", title = "{Measuring the QoS Characteristics of Operational 3G Mobile Broadband Networks}", booktitle = "{Proceedings of the 4th International Workshop on Protocols and Applications with Multi-Homing Support~(PAMS)}", pages = "753--758", numpages = "6", day = "16", month = may, year = "2014", address = "Victoria, British Columbia/Canada", language = "english", isbn = "978-1-4799-2652-7", doi = "10.1109/WAINA.2014.123", keywords = "Multi-Path Transport, Mobile Broadband Networks, Performance, Measurements, Quality of Service", abstract = "{Today, many smart phones and tablets have multiple interfaces (i.e.\ WLAN and 3G). These multiple interfaces can be utilized simultaneously by a multi-path transport protocol to provide bandwidth aggregation or reliability. However, in order to design efficient multi-path scheduling and congestion control strategies, it is crucial to understand the behaviour and properties of the underlying paths first. WLAN links have already been studied extensively in the literature. Therefore, in this paper, we focus on Mobile Broadband~(MBB) networks that are in use today. We utilized NorNet Edge nodes that are connected to up to five different 3G ISPs (UMTS and CDMA2000), hence, providing a realistic view on the QoS characteristics that are experienced by end-users of these MBB networks. We present QoS characteristics (e.g.\ bandwidth, delay and loss) and discuss our observations. Our results shed light on what a multi-path transport endpoint has to expect -- and to efficiently cope with -- when using today's MBB networks as transport paths.}", url = "https://www.simula.no/file/simulasimula2516pdf/download", url.size = "1560162", url.md5 = "829e385c146f959a11e21b9e0f816091", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-12-12 18:14:30 CET", note = "{ISBN} 978-1-4799-2652-7" } @InProceedings{ PAMS2015-Monitoring, author = "Thomas Dreibholz and Jarle Bjørgeengen and Jonas Werme", title = "{Monitoring and Maintaining the Infrastructure of the NorNet Testbed for Multi-Homed Systems}", booktitle = "{5th International Workshop on Protocols and Applications with Multi-Homing Support~(PAMS)}", pages = "611--616", numpages = "6", day = "25", month = mar, year = "2015", address = "Gwangju/South Korea", language = "english", isbn = "978-1-4799-1775-4", doi = "10.1109/WAINA.2015.76", keywords = "NorNet, Internet Testbed, Monitoring, Multi-Homing, Path Characteristics, Resilience", abstract = "{NorNet Core is the world's first, open, large-scale Internet testbed for multi-homed systems and applications. Particularly, it is currently used for research on topics like multi-path transport and resilience. Researchers can run experiments on distributed, programmable nodes that are distributed over various locations and providing access to multiple different Internet service providers~(ISP) with different access technologies. Clearly, a key feature of this testbed is to work in the real-world Internet. That is, it is especially desired to expose experiments to real Internet behaviour like background traffic. However, for the researcher, it is necessary to actually know how paths -- being used for an experiment -- actually behave: Are the paths actually working? How are the round-trip times among sites over different ISPs, etc.. How did the behaviour change over time? To provide such information to the researchers, we have designed and developed a maintenance and monitoring infrastructure for the NorNet Core testbed. In this paper, we will first introduce this infrastructure. Furthermore, we will demonstrate its usefulness with some useful, real-world examples. Our infrastructure has now become part of the testbed, and it is therefore available for all users of NorNet Core as well.}", url = "https://www.simula.no/file/pams2015-nornet-monitoring-webpdf/download", url.size = "550079", url.md5 = "de8568f766023dba008bb7201f92b6a3", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2015-02-22 12:12:13 CET", note = "{ISBN} 978-1-4799-1775-4" } @InProceedings{ PAMS2015-MPTCP, author = "Thomas Dreibholz and Xing Zhou and Fa Fu", title = "{Multi-Path TCP in Real-World Setups -- An Evaluation in the NorNet Core Testbed}", booktitle = "{5th International Workshop on Protocols and Applications with Multi-Homing Support~(PAMS)}", pages = "617--622", numpages = "6", day = "25", month = mar, year = "2015", address = "Gwangju/South Korea", language = "english", isbn = "978-1-4799-1775-4", doi = "10.1109/WAINA.2015.74", keywords = "NorNet, Multi-Path TCP (MPTCP), Multi-Homing, Multi-Path Transport, Evaluation", abstract = "{Nowadays, cloud applications are becoming more and more popular. However, in order for such applications to work, they need a stable Internet connectivity. To avoid the Internet access becoming a single point of failure, redundancy by multi-homing -- i.e.\ simultaneous access to multiple Internet service providers~(ISP) -- is becoming increasingly common as well. Multi-homing leads to the desire to utilise all network attachment points simultaneously, which is e.g.\ provided by the Multi-Path TCP~(MPTCP) extension for TCP. MPTCP is still under development by researchers and standardisation in the IETF. Particularly, it is necessary to evaluate MPTCP under realistic Internet conditions. NorNet Core is the world's first, large-scale Internet testbed for multi-homed systems and applications. It is therefore a useful platform for evaluating MPTCP. In this paper, we therefore present our NorNet Core extension that adds MPTCP support to the testbed. Particularly, our extension is now available to all users of NorNet Core as well, which significantly reduces the effort of MPTCP researchers to evaluate MPTCP and its improvements. In a proof of concept, we furthermore show the strengths and weaknesses of state-of-the-art MPTCP in NorNet Core, in a configuration covering 29~ISP connections at 14~sites in 5~different countries.}", url = "https://www.simula.no/file/pams2015-mptcp-webpdf/download", url.size = "215245", url.md5 = "1d87843d61fd55880aa7aa25fba51e19", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2015-02-22 12:12:13 CET", note = "{ISBN} 978-1-4799-1775-4" } @InProceedings{ PDP2019, author = "Thomas Dreibholz and Somnath Mazumdar and Feroz Zahid and Amirhosein Taherkordi and Ernst Gunnar Gran", title = "{Mobile Edge as Part of the Multi-Cloud Ecosystem: A Performance Study}", booktitle = "{Proceedings of the 27th Euromicro International Conference on Parallel, Distributed and Network-Based Processing~(PDP)}", pages = "59--66", numpages = "8", day = "13", month = feb, year = "2019", address = "Pavia, Lombardia/Italy", language = "english", isbn = "978-1-7281-1644-0", doi = "10.1109/EMPDP.2019.8671599", keywords = "Cloud Computing, Latency, Mobile Edge Computing, Multi-Cloud, Performance", abstract = "{Cloud computing has revolutionized the way of application usage and deployment: applications run cost-effectively in remote data centers. With the increasing need for mobility and micro-services, particularly with the upcoming 5G mobile broadband networks, there is also a strong demand for mobile edge computing (MEC): applications run in small cloud systems in close proximity to the user, in order to minimize latencies. Both cloud and MEC have their advantages and disadvantages. Combining the two approaches in a unified multi-cloud, consisting of both traditional cloud services provisioned over heterogeneous cloud platforms and MEC systems, has the potential of obtaining the best out of both worlds. However, a comprehensive study is needed to evaluate the performance gains and the overheads involved for real-world cloud applications. In this paper, we introduce a baseline performance evaluation in order to identify the fallacies and pitfalls of combining multiple cloud systems and MEC into a unified MEC-multi-cloud platform. For this purpose, we analyze the basic, application-independent performance metrics of average round-trip time (RTT) and average application payload throughput in a setup consisting of two private and one public cloud systems. This baseline performance analysis confirms the feasibility of MEC-multi-cloud, and provides guidelines for designing an autonomic resource provisioning solutions, in terms of an extension proposed to our existing Melodic middleware platform for multi-cloud applications.}", url = "https://www.simula.no/file/pdp2019-webpdf/download", url.size = "10204392", url.md5 = "ec3ccc12f5e74208bbcb2f363f019be9", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2019-01-10 15:31:36 AEDT", url.keywords = "Cloud Computing, Mobile Edge Computing, Multi-Cloud, Performance, Latency", note = "{ISBN} 978-1-7281-1644-0" } @Article{ PEVA2019, author = "Runa Barik and Michael Welzl and Ahmed Mustafa Elmokashfi and Thomas Dreibholz and Safiqul Islam and Stein Gjessing", title = "{On the Utility of Unregulated IP DiffServ Code Point~(DSCP) Usage by End Systems}", journal = "{Performance Evaluation}", volume = "135", numpages = "18", day = "26", month = aug, year = "2019", publisher = "Elsevier", language = "english", issn = "0166-5316", doi = "10.1016/j.peva.2019.102036", keywords = "DiffServ, DiffServ Code Point, QoS, WebRTC, Latency", abstract = "{DiffServ was designed to implement service provider quality of service (QoS) policies, where routers change and react upon the DiffServ Code Point (DSCP) in the IP header. However, nowadays, applications are beginning to directly set the DSCP themselves, in the hope that this will yield a more appropriate service for their respective video, audio and data streams. WebRTC is a prime example of such an application. We present measurements, for both IPv4 and IPv6, of what happens to DSCP values along Internet paths after an end system has set them without any prior agreement between a customer and a service provider. We find that the DSCP is often changed or zeroed along the path, but detrimental effects from using the DSCP are extremely rare; moreover, DSCP values sometimes remain intact (potentially having an effect on traffic) for several AS hops. This positive result motivates an analysis of the potential latency impact from such DSCP usage, for which we present the first measurement results. We find that routers at approximately 3% of more than 100,000 links differentiate between the WebRTC DSCP values (EF, AF42 and CS1) and consistently reduce delay in comparison with probes carrying a zero value (CS0) under congestion. In contrast, routers at around 2% of these links increase the delay by a comparable amount under congestion, uniformly for EF, AF42 and CS1.}", url = "https://www.simula.no/file/peva2019pdf/download", url.size = "1357406", url.md5 = "399932a5294ce7b004f23b0e3c4f2df3", url.mime = "application/pdf", url.pagesize = "544.252 x 742.677 pts", url.checked = "2019-09-04 21:48:36 CEST", note = "{ISSN} 0166-5316" } @InProceedings{ PFLDNeT2010, author = "Thomas Dreibholz and Robin Seggelmann and Michael Tüxen and Erwin Paul Rathgeb", title = "{Transmission Scheduling Optimizations for Concurrent Multipath Transfer}", booktitle = "{Proceedings of the 8th International Workshop on Protocols for Future, Large-Scale and Diverse Network Transports~(PFLDNeT)}", volume = "8", numpages = "6", day = "29", month = nov, year = "2010", address = "Lancaster, Pennsylvania/U.S.A.", language = "english", issn = "2074-5168", keywords = "Concurrent Multipath Transfer, Scheduling, Optimizations, Analysis", abstract = "{SCTP is a general-purpose Transport Layer protocol with out-of-the-box support for multi-streaming as well as multi-homing. A protocol extension, which is denoted as CMT-SCTP, extends SCTP by supporting Concurrent Multipath Transfer~(CMT). That is, multiple network paths are utilized simultaneously in order to improve the payload data throughput. However, dissimilar paths -- i.e.\ paths having different delays or bandwidths -- are challenging and also very likely in internet setups. In this paper, we show how CMT-SCTP data transport performance can be improved by combining multi-streaming with an advanced stream scheduling policy and SCTP API enhancements. The performance benefit of our approach in dissimilar path setups is proven by simulations.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/SCTP/Paper/PFLDNeT2010.pdf", url.size = "648086", url.md5 = "18c2a0c4862d943aa53ff719459d7203", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:23 CEST", note = "{ISSN} 2074-5168" } @Misc{ Princeton2014, author = "Thomas Dreibholz", title = "{The NorNet Testbed for Multi-Homed Systems -- Introduction and Status}", howpublished = "Invited Talk at Princeton University, Department of Computer Science", numpages = "30", day = "8", month = may, year = "2014", address = "Princeton, New Jersey/U.S.A.", language = "english", keywords = "NorNet, NorNet Core, NorNet Edge, Testbed, Multi-Homing, Introduction, Status", abstract = "{Multi-homing denotes the simultaneous connection of endpoints to multiple Internet Service Providers~(ISP). That is, such endpoints should remain reachable even when some of the ISPs have problems. Besides the redundancy aspect, multi-homing can also make load sharing by multi-path transport possible, i.e.\ increasing the application throughput by utilizing multiple paths simultaneously. The growing need for and deployment of multi-homed applications makes large-scale testing and evaluation in realistic Internet setups necessary. For instance, different paths can have very different characteristics with regard to bandwidth, packet loss rate, congestion, delay and jitter. Therefore, the Simula Research Laboratory is building up the NorNet testbed, which is an open platform for such experiments. NorNet consists of two parts, the wireless part NorNet Edge as well as the wired part NorNet Core, providing researchers the possibility to use programmable, multi-homed nodes at different locations in Norway as well as at some international sites. This talk gives an overview over the NorNet testbed, with a special focus on the usage of the PlanetLab/Linux Containers-based software that is used to run NorNet Core.}", url = "https://www.simula.no/file/simulasimula2730pdf/download", url.size = "8683161", url.md5 = "b60311d5e6fb7858da54836e82aa3a67", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2014-12-12 18:14:59 CET" } @TechReport{ rfc-rserpool-mib, author = "Thomas Dreibholz and Jaiwant Mulik", title = "{Reliable Server Pooling MIB Module Definition}", type = "RFC", number = "5525", day = "22", month = apr, year = "2009", institution = "IETF", language = "english", issn = "2070-1721", doi = "10.17487/RFC5525", abstract = "{Reliable Server Pooling~(RSerPool) is a framework to provide reliable server pooling. The RSerPool framework consists of two protocols: ASAP~(Aggregate Server Access Protocol) and ENRP~(Endpoint Handlespace Redundancy Protocol). This document defines an SMIv2-compliant~(Structure of Management Information Version 2) Management Information Base~(MIB) module providing access to managed objects in an RSerPool implementation. This memo defines an Experimental Protocol for the Internet community.}", url = "https://www.ietf.org/rfc/rfc5525.txt", url.size = "85897", url.md5 = "0a97f3889ba2b726d4e738e9c4c77ee6", url.mime = "text/plain", url.checked = "2014-04-02 17:24:31 CEST", note = "{ISSN} 2070-1721" } @TechReport{ rfc-rserpool-overview, author = "Peter Lei and Lyndon Ong and Michael Tüxen and Thomas Dreibholz", title = "{An Overview of Reliable Server Pooling Protocols}", type = "Informational RFC", number = "5351", day = "30", month = sep, year = "2008", institution = "IETF", language = "english", issn = "2070-1721", doi = "10.17487/RFC5351", abstract = "{The Reliable Server Pooling effort~(abbreviated "RSerPool") provides an application-independent set of services and protocols for building fault-tolerant and highly available client/server applications. This document provides an overview of the protocols and mechanisms in the Reliable Server Pooling suite. This memo provides information for the Internet community.}", url = "https://www.ietf.org/rfc/rfc5351.txt", url.size = "33062", url.md5 = "ef2740924a7fd7e776672161b88ab7fa", url.mime = "text/plain", url.checked = "2014-04-02 17:24:27 CEST", note = "{ISSN} 2070-1721" } @TechReport{ rfc-rserpool-policies, author = "Thomas Dreibholz and Michael Tüxen", title = "{Reliable Server Pooling Policies}", type = "RFC", number = "5356", day = "30", month = sep, year = "2008", institution = "IETF", language = "english", issn = "2070-1721", doi = "10.17487/RFC5356", abstract = "{This document describes server pool policies for Reliable Server Pooling~(RSerPool) including considerations for implementing them at Endpoint Handlespace Redundancy Protocol~(ENRP) servers and pool users. This memo defines an Experimental Protocol for the Internet community.}", url = "https://www.ietf.org/rfc/rfc5356.txt", url.size = "33394", url.md5 = "b3865e8c10685a43bd16cc90ecf4df29", url.mime = "text/plain", url.checked = "2014-04-02 17:24:30 CEST", note = "{ISSN} 2070-1721" } @TechReport{ RspSim2012, author = "Thomas Dreibholz and Martin Becke and Hakim Adhari and Erwin Paul Rathgeb", title = "{RspSim -- A Simulation Model of the Reliable Server Pooling Framework}", type = "OMNeT++ Code Contribution", numpages = "2", day = "6", month = feb, year = "2012", institution = "University of Duisburg-Essen, Institute for Experimental Mathematics", language = "english", keywords = "Reliable Server Pooling, Simulation, Evaluation, Model, Cloud Computing", abstract = "{This code contribution paper provides an overview of the RSPSIM model, which is a simulation model for the Reliable Server Pooling~(RSerPool) framework. RSerPool denotes an IETF standard for the management of server pools and sessions with these pools. Such mechanisms are also crucial in the context of cloud computing research.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/RspSim2012.pdf", url.size = "231006", url.md5 = "d515de6b0f138484c8e7709af8293735", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:25 CEST" } @TechReport{ SCTPSim2012, author = "Thomas Dreibholz and Martin Becke and Hakim Adhari and Erwin Paul Rathgeb and Irene Rüngeler and Robin Seggelmann and Michael Tüxen", title = "{Improvements to the SCTP Environment in the INET Framework}", type = "OMNeT++ Code Contribution", numpages = "2", day = "6", month = feb, year = "2012", institution = "University of Duisburg-Essen, Institute for Experimental Mathematics", language = "english", keywords = "Stream Control Transmission Protocol~(SCTP), SCTP Extensions, Simulation, Multi-Homing, Auto-Routing", abstract = "{This code contribution paper provides an overview of the enhancements to the Stream Control Transmission Protocol~(SCTP) environment of the INET Framework. Besides a highly improved SCTP core protocol, a couple of SCTP extensions -- being either already standardized or currently under discussion in the IETF -- have been realized. Furthermore, extended test applications and an auto-routing module with multi-homing support have been added. These enhancements make state-of-the-art SCTP simulation scenarios possible.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/SCTP/Paper/SCTPSim2012.pdf", url.size = "895384", url.md5 = "ae78a4d0bda04dc875c7262cd285434c", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:25 CEST" } @InProceedings{ SERA2010, author = "Xing Zhou and Thomas Dreibholz and Martin Becke and Jobin Pulinthanath and Erwin Paul Rathgeb and Wencai Du", title = "{The Software Modeling and Implementation of Reliable Server Pooling and RSPLIB}", booktitle = "{Proceedings of the 8th ACIS Conference on Software Engineering Research, Management and Applications~(SERA)}", pages = "129--136", numpages = "8", day = "24", month = may, year = "2010", address = "Montr{\'e}al, Qu{\'e}bec/Canada", language = "english", isbn = "978-0-7695-4075-7", doi = "10.1109/SERA.2010.26", keywords = "Reliable Server Pooling~(RSerPool), RSPLIB, Service Availability, Software Modeling, Implementation", abstract = "{With the growing complexity of software applications, there is an increasing demand for solutions to distribute workload into server pools. Grid Computing provides powerful -- but also highly complex -- mechanisms to realize such tasks. Also, there is a steadily growing number of downtime-critical applications, requiring redundant servers to ensure service availability in case of component failures. To cope with the demand for server redundancy and service availability, the IETF has recently standardized the lightweight Reliable Server Pooling~(RSerPool) framework, which is a common architecture for server pool and session management. In this paper, we first introduce the concept of RSerPool and then present the modeling thoughts of RSPLIB and the underlying general groupware design. Based on RSPLIB, we will illustratively show how to easily develop applications on top of RSerPool. We will also offer an application evaluation example for a proof-of-concept setup to distribute ray-tracing computation workload into a compute pool.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/SERA2010.pdf", url.size = "2829345", url.md5 = "889ce62f9c2de4ebe431b604d07a3f30", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:22 CEST", note = "{ISBN} 978-0-7695-4075-7" } @InProceedings{ SNPD2009, author = "Xing Zhou and Thomas Dreibholz and Erwin Paul Rathgeb and Wencai Du", title = "{Takeover Suggestion -- A Registrar Redundancy Handling Optimization for Reliable Server Pooling Systems}", booktitle = "{Proceedings of the 10th IEEE/ACIS International Conference on Software Engineering, Artificial Intelligence, Networking and Parallel/Distributed Computing~(SNPD)}", pages = "168--173", numpages = "6", day = "27", month = may, year = "2009", address = "Daegu/South Korea", language = "english", isbn = "978-3-642-01202-0", doi = "10.1109/SNPD.2009.17", keywords = "Reliable Server Pooling~(RSerPool), Redundancy, Handlespace Management, Takeover, Performance Analysis", abstract = "{Reliable Server Pooling~(RSerPool) is the IETF's new standard for a common server redundancy and session failover framework to support availability-critical applications. Server pools are maintained by redundant management components denoted as registrars. These registrars monitor the availability of servers in the pool and remove them in case of failure. Furthermore, they synchronize their view of the pool with other registrars to provide information redundancy. In this paper, we first illustrate the implications of registrar redundancy on the performance of RSerPool systems. After that, we present an optimization approach for the server pool management, which improves the management performance in case of registrar problems like hardware failures or Denial of Service attacks. The performance of our approach is evaluated in real life using PlanetLab measurements.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/SNPD2009.pdf", url.size = "556009", url.md5 = "a9bb30606285c619fb63bfacbd78939a", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:20 CEST", note = "{ISBN} 978-3-642-01202-0" } @InProceedings{ SoftCOM2011, author = "Thomas Dreibholz and Martin Becke and Hakim Adhari and Erwin Paul Rathgeb", title = "{Evaluation of A New Multipath Congestion Control Scheme using the NetPerfMeter Tool-Chain}", booktitle = "{Proceedings of the 19th IEEE International Conference on Software, Telecommunications and Computer Networks~(SoftCOM)}", pages = "1--6", numpages = "6", day = "16", month = sep, year = "2011", address = "Hvar, Dalmacija/Croatia", language = "english", isbn = "978-953-290-027-9", keywords = "NetPerfMeter Tool-Chain, Concurrent Multipath Transfer, Congestion Control, Dissimilar Paths, Performance Analysis", abstract = "{Multi-homed Internet sites become more and more widespread, due to the rising dispersal of inexpensive Internet access technologies combined with the growing deployment of resilience-critical applications. Concurrent Multipath Transfer~(CMT) denotes the Transport Layer approach to utilise multiple network paths simultaneously, in order to improve application payload throughput. Currently, CMT is a quite hot topic in the IETF -- in form of the Multipath~TCP~(MPTCP) and CMT-SCTP protocol extensions for TCP and SCTP. However, an important issue is still not fully solved: multipath congestion control. In order to support the IETF activities, we have set up a distributed Internet testbed for CMT evaluation. An important tool -- which we have developed for multi-protocol Transport Layer performance analysis -- is the Open Source NetPerfMeter tool-chain. It supports the parametrisation and processing of measurement runs as well as results collection, post-processing and plotting. However, its key feature is to support multiple Transport Layer protocols, which makes a quantitative comparison of different protocols -- including state-of-the-art features like CMT -- possible. In this paper, we first introduce NetPerfMeter and then show a proof-of-concept performance evaluation of CMT congestion controls which are currently discussed in the IETF standardisation process of CMT-SCTP.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/SCTP/Paper/SoftCOM2011.pdf", url.size = "367773", url.md5 = "23b808c6caa72f0cfb5213d8b6cf7b31", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:25 CEST", note = "{ISBN} 978-953-290-027-9" } @InProceedings{ SoftCOM2020-HiPerConTracer, author = "Thomas Dreibholz", title = "{HiPerConTracer - A Versatile Tool for IP Connectivity Tracing in Multi-Path Setups}", booktitle = "{Proceedings of the 28th IEEE International Conference on Software, Telecommunications and Computer Networks~(SoftCOM)}", numpages = "6", day = "17", month = sep, year = "2020", address = "Hvar, Dalmacija/Croatia", language = "english", isbn = "978-953-290-099-6", doi = "10.23919/SoftCOM50211.2020.9238278", keywords = "HiPerConTracer, Traceroute, Ping, Multi-Path Transport, NorNet, NorNet Core", abstract = "{Nowadays, we see a steadily increasing number of Internet devices with connections to multiple networks. For example, every smartphone provides mobile broadband and Wi-Fi connectivity. Multi-path transport protocols, like MPTCP, CMT-SCTP or Multipath-QUIC, allow for utilising all connected networks simultaneously. However, while there is a lot of research on the Transport Layer aspects of multi-path transport, there is not much work on the Network Layer perspective, yet. In this paper, we introduce our Open Source tool HiPerConTracer (High-Performance Connectivity Tracer) for efficient, parallelised, long-term measurements of the path connectivity characteristics among multi-homed Internet systems. HiPerConTracer is now running as a permanent feature in the NorNet Core infrastructure, which is used for research on multi-homed systems, and in particular for research on multi-path transport. Based on the HiPerConTracer data collected in NorNet Core so far, we finally present some interesting results from the analysis of the inter-continental site connectivity between China and Norway in January 2020. }", url = "https://www.simula.no/file/softcom2020-hipercontracer-webpdf-0/download", url.size = "5015461", url.md5 = "676791cf458caa2e9f21688227fc6219", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2020-08-03 09:27:16 CEST", note = "{ISBN} 978-953-290-099-6" } @InProceedings{ SoftCOM2020-SimulaMetEPC, author = "Thomas Dreibholz", title = "{A 4G/5G Packet Core as VNF with Open Source MANO and OpenAirInterface}", booktitle = "{Proceedings of the 28th IEEE International Conference on Software, Telecommunications and Computer Networks~(SoftCOM)}", numpages = "3", day = "19", month = sep, year = "2020", address = "Hvar, Dalmacija/Croatia", language = "english", isbn = "978-953-290-099-6", doi = "10.23919/SoftCOM50211.2020.9238222", keywords = "Network Function Virtualisation (NFV), Virtual Network Function (VNF), Evolved Packet Core (EPC), OpenAirInterface, Open Source MANO (OSM), Testbed", abstract = "{5G, the fifth generation of mobile broadband networks, is going to make a large range of new applications possible. However, further research is necessary, and the basic step, i.e. setting up a 4G/5G testbed infrastructure, is a complicated and error-prone task. In this abstract and poster, we introduce our open source SimulaMet EPC Virtual Network Function (VNF), as an easy way to set up a 4G/5G testbed based on Open Source MANO and OpenAirInterface. We would like to showcase how a researcher can use our VNF as part of his own research testbed setup. Therefore, the focus is particularly on the user interface details and features of the SimulaMet EPC VNF.}", url = "https://www.simula.no/file/softcom2020-simulametepc-webpdf/download", url.size = "829534", url.md5 = "e5573d55de90860f8dababa28911e819", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2020-08-03 12:03:44 CEST", note = "{ISBN} 978-953-290-099-6" } @Misc{ Stavanger2012, author = "Thomas Dreibholz", title = "{An Introduction to NorNet Core for the Site Deployment at Universitetet i Stavanger}", howpublished = "Invited Talk at Universitetet i Stavanger~(UiS)", numpages = "26", day = "27", month = nov, year = "2012", address = "Stavanger, Rogaland/Norway", language = "english", abstract = "{This invited talk at Universitetet i Stavanger gives an overview of the NorNet project, with particular focus on NorNet Core. It has been presented as part of the NorNet Core deployment visit.}", url = "https://www.simula.no/file/simulasimula1626pdf/download", url.size = "22093513", url.md5 = "d53c0d9ac7012586e3f4accba4b61ab7", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2014-12-12 18:13:49 CET", url.keywords = "NorNet, NorNet Edge, NorNet Core, Testbed, Overview" } @Misc{ Sydney2017-Presentation, author = "Thomas Dreibholz", title = "{NorNet at the University of Sydney -- An Introduction to the NorNet Core Testbed}", howpublished = "Invited Talk at University of Sydney, School of Information Technologies", numpages = "25", day = "24", month = jan, year = "2017", address = "Sydney, New South Wales/Australia", language = "english", keywords = "NorNet, NorNet Core, Testbed, Multi-Homing, Introduction, Status", abstract = "{Multi-homing denotes the simultaneous connection of endpoints (e.g.~cloud servers, smartphones, etc.) to multiple Internet Service Providers~(ISP). That is, the endpoints remain reachable even when some of the ISPs have problems (e.g.~malfunction of hardware or break of cables). Besides the redundancy aspect, multi-homing can also make load sharing by multi-path transport possible, i.e.~increasing the application throughput by utilising multiple paths simultaneously. Multi-path transport can e.g.~be realised by Concurrent Multi-Path Transfer for SCTP~(CMT-SCTP) and Multi-Path TCP~(MPTCP), two protocols that are currently under standardisation in the IETF. The growing need for and deployment of multi-homed applications makes large-scale testing and evaluation in realistic Internet setups necessary. For instance, different paths can have very different characteristics with regard to bandwidth, packet loss rate, congestion, delay and jitter. Therefore, the NorNet project of the Simula Research Laboratory is building up an open platform for such experiments: the NorNet testbed. It provides programmable nodes with multiple ISP connections -- wired as well as wireless -- that are distributed all over Norway as well as some international locations. This talk will give an overview over NorNet's wired network part NorNet Core. Particularly, it will also show how the NorNet Core testbed can be utilised for research at the University of Sydney.}", url = "https://www.simula.no/file/sydney2017-presentationpdf/download", url.size = "12131689", url.md5 = "e5f885e46a6b34b6fdcaf44fc77adde1", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2017-01-24 11:54:11 CET" } @Misc{ Sydney2017-Tutorial, author = "Thomas Dreibholz", title = "{An Experiment Tutorial for the NorNet Core Testbed at the University of Sydney}", howpublished = "Tutorial at University of Sydney, School of Information Technologies", numpages = "27", day = "24", month = jan, year = "2017", address = "Sydney, New South Wales/Australia", language = "english", keywords = "NorNet, NorNet Core, Testbed, Multi-Homing, Multi-Path Transport, Tutorial", abstract = "{This tutorial -- presented for Ph.D.\ students at the School of Information Technologies of the University of Sydney -- provides an introduction on how to get access to the NorNet Core testbed as well as how to run experiments in the testbed.}", url = "https://www.simula.no/file/sydney-tutorialpdf/download", url.size = "4944507", url.md5 = "d3154a5ac9aa2ec045c406d15ee51da7", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2017-01-24 11:58:11 CET" } @Misc{ Sydney2019, author = "Thomas Dreibholz", title = "{NorNet at the University of Sydney: From Simulations to Real-World Internet Measurements for Multi-Path Transport Research}", howpublished = "Invited Talk at University of Sydney", numpages = "43", day = "10", month = jan, year = "2019", address = "Sydney, New South Wales/Australia", language = "english", keywords = "NorNet, NorNet Core, NorNet Edge, Testbed, Multi-Homing, Introduction, Status", abstract = "{A large fraction of the communication in the Internet is handled by the Transmission Control Protocol (TCP). Since the first deployments of this protocol more than 30 years ago, the spectrum of applications as well as the structure of the network have developed at a fast pace. For example, today's network devices, like smartphones and laptops -- i.e.\ particularly many devices in the area of mobile computing -- frequently have an interesting property: the existence of multiple IP addresses (IPv4 and/or IPv6). The addresses may even change due to mobility. This property, denoted as multi-homing, can be utilised for multi-path transport, i.e. the simultaneous usage of multiple paths in the network to improve performance. Multi-path transport is a hot topic in the Internet Engineering Task Force (IETF), which is the standardisation organisation for the Internet. This talk provides an overview of the work in the areas of multi-homing and multi-path transport, with focus on the area of the protocols TCP and Stream Control Transmission Protocol (SCTP) with their experimental extensions Multi-Path TCP (MPTCP) and Concurrent Multi-Path Transfer for SCTP (CMT-SCTP). It particularly shows the sequence of research and selected results, beginning from a simple simulation model, via lab setups and small Internet scenarios, up to the large-scale, international testbed project NorNet. NorNet, and particularly its landline network part NorNet Core, is furthermore described in some detail. Based on NorNet, it is finally possible to validate simulation results in real-world, multi-homed networks, in order to provide valuable input to the ongoing IETF standardisation processes of MPTCP and CMT-SCTP. Particularly, it will also show how the NorNet testbed can be utilised for research at the University of Sydney.}", url = "https://www.simula.no/file/sydney2019-presentationpdf/download", url.size = "17486981", url.md5 = "8e5c35e9b396565a42c5cb24d208bd1f", url.mime = "application/pdf", url.pagesize = "793.672 x 595.247 pts", url.checked = "2019-01-10 15:20:22 AEDT" } @InProceedings{ Tencon2005, author = "Thomas Dreibholz and Erwin Paul Rathgeb", title = "{The Performance of Reliable Server Pooling Systems in Different Server Capacity Scenarios}", booktitle = "{Proceedings of the IEEE TENCON}", numpages = "6", day = "22", month = nov, year = "2005", address = "Melbourne, Victoria/Australia", language = "english", isbn = "0-7803-9312-0", doi = "10.1109/TENCON.2005.300939", keywords = "Reliable Server Pooling~(RSerPool), Server Pooling, Load Distribution, Performance Analysis, Parameter Sensitivity", abstract = "{Reliable Server Pooling~(RSerPool) is a protocol framework for server pool management and session failover, currently under standardization by the IETF RSerPool WG. While the basic ideas of RSerPool are not new, their combination into one architecture is. Some research into the performance of RSerPool for certain specific applications has been made, but a detailed, application-independent sensitivity analysis of the system parameters is still missing. The goal of this paper is to systematically investigate RSerPool's load distribution behaviour on changes of workload and system parameters, to determine basic guidelines on designing efficient RSerPool systems. In this paper, we focus particularly on scenarios of server pools consisting of servers with unequal capacities.}", url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/ReliableServer/Publications/Tencon2005.pdf", url.size = "694917", url.md5 = "ca8319c2b0fa4a6edd7e8bbedd1c4e3e", url.mime = "application/pdf", url.pagesize = "595.276 x 841.89 pts (A4)", url.checked = "2014-04-02 17:08:17 CEST", note = "{ISBN} 0-7803-9312-0" } @Misc{ TKNBerlin2013, author = "Thomas Dreibholz", title = "{The NorNet Project – A Research Testbed for Multi-Path Transport}", howpublished = "Invited Talk at Technische Universität Berlin, Department of Telecommunication Networks", numpages = "26", day = "1", month = aug, year = "2013", address = "Berlin/Germany", language = "english", url = "https://www.simula.no/file/simulasimula2056pdf/download", url.size = "24217257", url.md5 = "2bdae2c9c4ee1ac2671d3730497f0e99", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2014-12-12 18:14:18 CET", url.keywords = "NorNet, NorNet Edge, NorNet Core, Testbed, Overview" } @Misc{ Trondheim2013, author = "Thomas Dreibholz", title = "{The NorNet Project -- An Introduction to NorNet for the Site Deployment at NTNU Trondheim}", howpublished = "Invited Talk at Norges teknisk-naturvitenskapelige universitet~(NTNU)", numpages = "25", day = "12", month = apr, year = "2013", address = "Trondheim, Sør-Trøndelag/Norway", language = "english", url = "https://www.simula.no/file/simulasimula1974pdf/download", url.size = "22225739", url.md5 = "b1c9b13724c18bee7f0d2db3fdee7243", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2014-04-02 17:08:57 CEST", url.keywords = "NorNet, NorNet Edge, NorNet Core, Testbed, Overview" } @Misc{ TsinghuaUniversity2014, author = "Thomas Dreibholz", title = "{The NorNet Testbed at Tsinghua University -- A Large-Scale Experiment Platform for Real-World Experiments with Multi-Homed Systems}", howpublished = "Invited Talk at Tsinghua University, Department of Computer Science", numpages = "38", day = "30", month = oct, year = "2014", address = "Beijing/People's Republic of China", language = "english", keywords = "NorNet, NorNet Core, NorNet Edge, Testbed, Multi-Homing, Introduction, Status", abstract = "{Multi-homing denotes the simultaneous connection of endpoints (e.g.~cloud servers, smartphones, etc.) to multiple Internet Service Providers~(ISP). That is, the endpoints remain reachable even when some of the ISPs have problems (e.g.~malfunction of hardware or break of cables). Besides the redundancy aspect, multi-homing can also make load sharing by multi-path transport possible, i.e.~increasing the application throughput by utilising multiple paths simultaneously. Multi-path transport can e.g.~be realised by Concurrent Multi-Path Transfer for SCTP~(CMT-SCTP) and Multi-Path TCP~(MPTCP), two protocols that are currently under standardisation in the IETF. The growing need for and deployment of multi-homed applications makes large-scale testing and evaluation in realistic Internet setups necessary. For instance, different paths can have very different characteristics with regard to bandwidth, packet loss rate, congestion, delay and jitter. Therefore, the NorNet project of the Simula Research Laboratory is building up an open platform for such experiments: the NorNet testbed. It provides programmable nodes with multiple ISP connections -- wired as well as wireless -- that are distributed all over Norway as well as some international locations. This talk will give an overview over NorNet. Particularly, it will also show how the NorNet testbed can be utilised for research at Tsinghua University.}", url = "https://www.simula.no/file/haikou2014-tsinghuauniversity-presentationpdf/download", url.size = "12438784", url.md5 = "27d10f08d47acba206ede3b0e4ba6286", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2015-02-28 10:39:24 CET" } @Misc{ UBC2014, author = "Thomas Dreibholz", title = "{The NorNet Testbed for Multi-Homed Systems -- Overview and Status}", howpublished = "Invited Talk at the University of British Columbia~(UBC)", numpages = "30", day = "12", month = may, year = "2014", address = "Vancouver, British Columbia/Canada", language = "english", keywords = "NorNet, NorNet Core, NorNet Edge, Testbed, Multi-Homing, Introduction, Status", abstract = "{Multi-homing denotes the simultaneous connection of endpoints (e.g.~cloud servers, smartphones, etc.) to multiple Internet Service Providers~(ISP). That is, the endpoints remain reachable even when some of the ISPs have problems (e.g.~malfunction of hardware or break of cables). Besides the redundancy aspect, multi-homing can also make load sharing by multi-path transport possible, i.e.~increasing the application throughput by utilising multiple paths simultaneously. Multi-path transport can e.g.~be realised by Concurrent Multi-Path Transfer for SCTP~(CMT-SCTP) and Multi-Path TCP~(MPTCP), two protocols that are currently under standardisation in the IETF. The growing need for and deployment of multi-homed applications makes large-scale testing and evaluation in realistic Internet setups necessary. For instance, different paths can have very different characteristics with regard to bandwidth, packet loss rate, congestion, delay and jitter. Therefore, the NorNet project of the Simula Research Laboratory is building up an open platform for such experiments: the NorNet testbed. It provides programmable nodes with multiple ISP connections -- wired as well as wireless -- that are distributed all over Norway as well as some international locations. This talk will give an overview over NorNet with a focus on its usage for research on multi-path transport. Particularly, it will also show how the NorNet testbed can be utilised for research at the University of British Columbia~(UBC).}", url = "https://www.simula.no/file/simulasimula2740pdf/download", url.size = "8683384", url.md5 = "07b62bbfd0da20550fcd31a3b3269b24", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2014-12-12 18:15:06 CET" } @Misc{ UCLM2017-INET-Presentation, author = "Thomas Dreibholz", title = "{Multi-Path Transport with OMNeT++ and the INET Framework}", howpublished = "Invited Talk at the Universidad de Castilla-La Mancha, Instituto de Investigación Informática de Albacete", numpages = "27", day = "16", month = feb, year = "2017", address = "Albacete, Castilla-La Mancha/Spain", language = "english", keywords = "Multi-Path Transport, OMNeT++, INET Framework, Stream Control Transmission Protocol, SCTP, Concurrent Multipath Transfer, CMT, CMT-SCTP, NetPerfMeter, SimProcTC", abstract = "{In order to evaluate the performance of multi-path transport protocols, a straightforward initial step is to perform simulations. OMNeT++, together with the INET Framework, provide a powerful Open Source platform for running network simulations. This talk provides an overview of simulating multi-path transport with OMNeT++ and the INET Framework. Particular focus is on the Concurrent Multipath Transfer extension for the Stream Control Transmission Protocol (SCTP). Furthermore, useful additions like the NetPerfMeter application model, the extended network auto-configurator as well as the Simulation Processing Tool-Chain (SimProcTC) are explained.}", url = "https://www.simula.no/file/uclm2017-inet-presentationpdf/download", url.size = "4471187", url.md5 = "3f419d15dbbf273d69067d6ab0b0aa07", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2017-02-16 16:27:17 CET" } @Misc{ UCLM2017-MultiPath-Presentation, author = "Thomas Dreibholz", title = "{Multi-Path Transport -- From Simulations to Real-World Internet Measurements}", howpublished = "Keynote Talk at the Universidad de Castilla-La Mancha, Instituto de Investigación Informática de Albacete", numpages = "36", day = "16", month = feb, year = "2017", address = "Albacete, Castilla-La Mancha/Spain", language = "english", keywords = "Multi-Path Transport, Multi-Path TCP (MPTCP), Concurrent Multi-Path Transfer for the Stream Control Transmission Protocol (CMT-SCTP), Simulations, Lab Measurements, Internet Measurements, NorNet Testbed, NorNet Core", abstract = "{A large fraction of the communication in the Internet is handled by the Transmission Control Protocol (TCP). Since the first deployments of this protocol more than 30 years ago, the spectrum of applications as well as the structure of the network have developed at a fast pace. For example, today's network devices, like smartphones and laptops -- i.e.\ particularly many devices in the area of mobile computing -- frequently have an interesting property: the existence of multiple IP addresses (IPv4 and/or IPv6). The addresses may even change due to mobility. This property, denoted as multi-homing, can be utilised for multi-path transport, i.e. the simultaneous usage of multiple paths in the network to improve performance. Multi-path transport is a hot topic in the Internet Engineering Task Force (IETF), which is the standardisation organisation for the Internet. This talk provides an overview of the work in the areas of multi-homing and multi-path transport, with focus on the area of the protocols TCP and Stream Control Transmission Protocol (SCTP) with their experimental extensions Multi-Path TCP (MPTCP) and Concurrent Multi-Path Transfer for SCTP (CMT-SCTP). It particularly shows the sequence of research and selected results, beginning from a simple simulation model, via lab setups and small Internet scenarios, up to the large-scale, international testbed project NorNet. NorNet, and particularly its landline network part NorNet Core, is furthermore described in some detail. Based on NorNet, it is finally possible to validate simulation results in real-world, multi-homed networks, in order to provide valuable input to the ongoing IETF standardisation processes of MPTCP and CMT-SCTP.}", url = "https://www.simula.no/file/uclm2017-multipath-presentationpdf-1/download", url.size = "14981565", url.md5 = "288c43363ccf6276ba468ac04f76adfa", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2017-02-16 16:44:04 CET" } @Misc{ UCLM2017-NorNet-Tutorial, author = "Thomas Dreibholz", title = "{An Experiment Tutorial for the NorNet Core Testbed at the the Universidad de Castilla-La Mancha}", howpublished = "Tutorial at the Universidad de Castilla-La Mancha, Instituto de Investigación Informática de Albacete", numpages = "27", day = "16", month = feb, year = "2017", address = "Albacete, Castilla-La Mancha/Spain", language = "english", keywords = "NorNet, NorNet Core, Testbed, Multi-Homing, Multi-Path Transport, Tutorial", abstract = "{This tutorial -- presented for staff members and students at the Instituto de Investigación Informática de Albacete of the the Universidad de Castilla-La Mancha -- provides an introduction on how to get access to the NorNet Core testbed as well as how to run experiments in the testbed.}", url = "https://www.simula.no/file/uclm2017-nornet-tutorialpdf/download", url.size = "5369515", url.md5 = "fc137937a18e3b14ff370926de13c094", url.mime = "application/pdf", url.pagesize = "794 x 595 pts", url.checked = "2017-02-16 16:27:13 CET" }