Every semester
5 Credit points
For information on the duration of the modul, refer to the courses of study in which the module is used.
Students acquire advanced theoretical-methodical competences in the field of autonomous systems engineering, which are necessary for the design, implementation, and evaluation of autonomous systems. After completing the module, students are able to develop autonomous technical systems. For this purpose, they have acquired advanced theoretical-methodical knowledge from a subarea of Advanced Autonomous Systems Engineering (e.g. sensor technology, robotics, embedded systems).
The module provides in-depth theoretical and methodological knowledge necessary for the development of autonomous systems. The teaching content of the module includes, for example, courses from the areas of software engineering, cognitronics, cognitive robotics, reconfigurable and parallel systems engineering, autonomous systems engineering, sensorics, robot manipulators, control theory, mobile robots, model-driven software and systems engineering, embedded systems. The specific teaching content of the module is determined by the courses chosen by the student. The choice from the designated range of courses is made according to personal interest.
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The courses include a lecture (2 CP) with the corresponding exercise (2 CP) OR a seminar (2 CP) with the corresponding exercise (2 CP) from a related subject area.
Module structure: 1 bPr 1
Examination upon Completion of Seminar + Exercise
Portfolio with final examination consisting of:
1) Portfolio of exercises related to the content of the seminar
Exercise tasks or programming tasks that are assigned in relation to the course (passing threshold: 50% of the achievable points). The assessment of the exercise tasks also includes direct questions regarding the solutions that must be answered by the students during the exercises. The instructor may require an individual explanation and demonstration of tasks and can replace a portion of the exercise tasks with in-person exercises. The exercise tasks within the portfolio are generally assigned weekly and serve to support the independent learning of implementations of the content presented in the seminar/in the lecture. Further specification, particularly regarding the time frame of the final examination, will be provided in the course description.
2) A final examination for the seminar
The final examination regarding the content of the seminar refers to the exercise or programming tasks or develops from the competencies learned in the exercises.
Seminar: Presentation (lasting 30–40 minutes) with written report (10-15 pages)
The students present, after coordinating the specific task with the examiner, the significance and systematic-scientific classification of a problem addressed in the seminar and explain and present their topic in writing in their report, incorporating aspects from the discussion in the seminar. The task may also include the elaboration of an application (i.e., programming/calculation, etc.) of a method to a typically practically significant individual case. The presentation with report refers to the content conveyed in the seminar and developed in the exercises.
Both portfolio elements will be assessed by an examiner. A final overall assessment will be provided.
Examination upon Completion of Lecture + Exercise
Portfolio with final examination consisting of:
1) Portfolio of exercises related to the content of the lecture
Exercise tasks or programming tasks that are assigned in relation to the course (passing threshold: 50% of the achievable points). The assessment of the exercise tasks also includes direct questions regarding the solutions that must be answered by the students during the exercises. The instructor may require an individual explanation and demonstration of tasks and can replace a portion of the exercise tasks with in-person exercises. The exercise tasks within the portfolio are generally assigned weekly and serve to support the independent learning of implementations of the content presented in the seminar/in the lecture. Further specification, particularly regarding the time frame of the final examination, will be provided in the course description.
2) A final examination for the lecture
The final examination regarding the content of the lecture refers to the exercise or programming tasks or develops from the competencies learned in the exercises.
Lecture: Final exam (lasting 90-120 minutes) or oral final examination (lasting 20-30 minutes) covering the content conveyed in the lecture and developed in the exercises.
The exam can alternatively be conducted as an e-exam, open book exam, or e-open book exam. In the case of open book and e-open book exams, the duration is 120-150 minutes.
Both portfolio elements will be assessed by an examiner. A final overall assessment will be provided.
| Degree programme | Recommended start 3 | Duration | Mandatory option 4 |
|---|---|---|---|
| Intelligent Interactive Systems / Master of Science [FsB vom 16.05.2023 mit Änderungen vom 15.12.2023 und 01.04.2025 und Berichtigung vom 16.07.2024] | 2. o. 3. | one semester | Compulsory optional subject |
The system can perform an automatic check for completeness for this module.
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