Summer Term 2022
Overview
In summer term 2022 we offer the following courses:
- Programmieren in C (Bachelor, German)
- Internet of Things: Protocols and System Software (Master, English)
- Student Project Embedded Systems - Bio-signal processing for exoskeletons SS22 (Master CPS, MAI)
- Student Project Embedded Systems - Embedded AI Model Store SS22 (MAI, BAI)
- Seminar Reconfigurable Hardware for the Internet of Things (BAI, MAI)
- Cyberphysical Systems Labor-Praktikum (M CPS)
Lecture with exercise for Bachelor AI / ISE CEProgrammieren mit C
| Lecturer: | Prof. Dr. Gregor Schiele (Lecture) Lukas Einhaus (Exercise) |
| Language: | German |
| Turnus: | Summer Term |
| Time: | Wednesday, 10:15-12:00 Uhr (Lecture) Tuesday, 12:00-14:00 Uhr (Exercise) |
| Location: | LC 137 |
| Start: | 13.04.2022 |
This Bachelor lecture teaches the basics of programming in the C programming language. Despite its long history, C is still one of the most widespread and important programming languages today, especially for system-oriented programming. It is easy to learn but difficult to master, as it contains only a few keywords and concepts, but these can be used to emulate many modern programming techniques.
In detail, it covers: General concepts of programming languages, variables and types in C, operators and expressions, control structures and functions, the preprocessor, pointers, static and dynamic memory management, error handling, bit manipulation, modules and abstract data types, unit testing and test-driven development in C.
Please note that this is not a lecture on the basics of programming. The lecture builds on the courses "Grundlegende Programmiertechniken" and "Fortgeschrittene Programmiertechniken", i.e. basic programming knowledge (e.g. variables and types, loops, subroutines and recursion) and basic knowledge of data structures and algorithms are assumed.
Lecture with exercise for Master AI / ISE CE / ISE ESEInternet of Things: Protocols and System Software
| Lecturer: | Prof. Dr. Gregor Schiele (Lecture) Chao Qian (Exercise) |
| Language: | English |
| Turnus: | Summer Term |
| Time: |
Tuesday, 16:00-18:00h Wednesday, 14:00-16:00h |
| Location: |
Tuesday: LE 105 Wednesday: LC 137 |
| Start: | 05.04.2022 |
This masters lecture will introduce the research area of the "Internet of Things" (IoT), where billions of embedded systems (actuator, sensors) make continously data in real time to about the real world available to the Internet. Topics, that will be covered are:
Hardware plattforms (e.g. SBCs, Sensor nodes), communication protocols (e.g. IEEE 802.15.4, 6LoWPAN, CoAP, MQTT), data modelling (e.g. linked data, RDF, SSN), data management and access (e.g. SPARQL, continous queries with CQELS, "Big Data"), system software and software plattforms (e.g. Eclipse Ponte, Xively, BASE, PCOM), future work ("programmable world"). An exercise will complement the theoretical knowledge with practical task of programming IoT-Systems, e.g. with Arduinos or Raspberry Pis.
Student ProjectStudent Project Embedded Systems - Bio-signal processing for exoskeletons SS22
| Supervisor: | Prof. Dr. Gregor Schiele Christopher Ringhofer Chao Qian |
| Language: | German/English |
| Turnus: | Summer Term |
| Time: | 05.04.2022 - 10:00 - 11:00 Uhr (Kickoff) |
| Location: | BC 013 |
| Beginn: | TBD |
Medical exoskeletons are an important topic e.g. for medical rehabilitation of stroke patients. One challenge is to identify what kind of movement a user wants to do, e.g. lifting an arm. This can be supported using biosignal analysis such as EEG (i.e., neuron activity in the brain) or EMG (i.e., muscle activity). In this project, we will explore how embedded machine learning can be used to implement better exoskeletons through such biosignal analysis.
- explore the state of the art for biosignal analysis for exoskeleton control,
- design and train machine learning (ML) algorithms for biosignal analysis (EEG, EMG),
- use an existing toolchain to implement embedded accelerators for such ML algorithms,
- evaluate the developed system with real experiments.
Student ProjectPraxisprojekt Eingebettete Systeme - Embedded AI Model Store
| Supervisor: | Prof. Dr. Gregor Schiele Lukas Einhaus |
| Language: | German/English |
| Turnus: | Summer Term |
| Time: | 04.04.2022 - 14:00 - 16:00 Uhr (Kickoff) |
| Location: | BC 013 |
| Beginn: | TBD |
Embedded AI is found in many fields today, often allowing efficient processing of data close to the data source. By their nature, however, embedded systems are often hardly physically accessible. Since they are also subject to changing requirements and environmental influences, application administrators and developers need a way to make changes to the AI even after the system has been deployed. In this project, the first steps will be taken to update heterogeneous embedded AI in-situ or even to change it completely. To this end, the students will develop a solution that allows an embedded system to access an AI model store. They will
- research how similar systems are realised today
- design/train an example model for an embedded MCU and integrate it into an example application
- set up a model store
- store models and parameters in the model store
- develop interfaces that allow application administrators to access entities in the model store.
Prerequisite for participation:
- Knowledge of embedded C or Python
Helpful knowledge:
- Java
- MQTT
- Pytorch
The kick-off meeting will take place on 04.04.2022 at 14:00 in room BC013. Attendance of the kick-off is mandatory for participation in the project.
Bachelor and Master SeminarSeminar „Reconfigurable Hardware for the Internet of Things“
| Supervisor: | Prof. Dr. Gregor Schiele Christopher Ringhofer Lukas Einhaus |
| Language: | English/German |
| Turnus: | Summer Term |
| Time: | Do, 10:00-12:00h |
| Location: | BC 303 |
| Beginn: | Do, 07.04.2022, 10:00 (Kickoff) |
In order to be able to cope with the upcoming challenges of applications in the Internet of Things, further hardware classes must be included that can solve certain problem classes of computations more efficiently. Reconfigurable types of hardware such as field-programmable gate arrays (FPGA) represent an alternative to the classically used microcontrollers. The topic of this seminar is the development of applications for reconfigurable hardware with a focus on FPGAs. Not only will the theoretical basics of FPGAs and the development language VHDL be highlighted, but practical work will also be done with these devices in the seminar and they will be programmed in VHDL in order to directly and practically deepen the theoretically learned concepts. During the seminar, an extended abstract is to be written and an application written in VHDL is to be developed.
The kick-off meeting will take place on 07.04.2022 at 10:00 am in room BC303. Attendance of the kick-off meeting is mandatory for participation in the seminar.
Practical TrainingCyberphysical Systems Labor-Praktikum
| Teacher: |
Prof. Dr. Gregor Schiele / Chao Qian |
| Language: | German |
| Turnus: | Summer Term |
| Time: | TBD |
| Location: | TBD |
| Start: | Mi, 06.04.2022, 10:00 (Kickoff) BC013 |
This practical training is exclusive for students of the course of study M.Sc. "Cyber Physical Systems". It is offered in collaboration with the groups of Prof. Pauli, Prof. Weis and Prof. Schiele.
Kickoff: Mi, 06.04.2022 10:00 BC013