Duration:
2 Semester | Turnus of offer:
each year, can be started in winter or summer semester | Credit points:
8 |
Course of studies, specific field and terms: - Master Robotics and Autonomous Systems 2019 (optional subject), Elective, 1st or 2nd semester
|
Classes and lectures: - Rescue Robotics (exercise, 2 SWS)
- Rescue Robotics (lecture, 2 SWS)
- Advanced Topics in Robotics (exercise, 1 SWS)
- Advanced Topics in Robotics (lecture, 2 SWS)
| Workload: - 40 Hours exam preparation
- 105 Hours in-classroom work
- 95 Hours private studies
| |
Contents of teaching: | - Content of teaching of the course Advanced Topics in Robotics:
- Motion Planning for Robots
- Augmented Reality
- Design of Robot Systems
- Intracorporal Robotics
- Dynamics and Control of Robots
- Content of teaching of the course Rescue Robotics:
- Special requirements for disaster management and response and the resulting consequences on rescue robot design.
- Information structures for rescue systems
- Information exchange between rescue robots
- Command and control systems for search and rescue robots
- Tactical communication for cooperative SAR robot missions as well as interoperability in heterogeneous teams.
- Design guidelines for human interfaces to rescue robots
- Casualty and vital sign detection in rescue scenarios
- Medical assistance at the scene of incident and determination of vital signs
- Evaluation and benchmarking of SAR robots
| |
Qualification-goals/Competencies: - Educational objectives of the course Advanced Topics in Robotics:
- Students understand the connection to underlying mathematical methods, especially in dynamics, optimization, and sensor data processing and analysis of algorithms.
- Students have an extended overview of application areas for robotics.
- They are able to implement such methods and derive new applications based on such methods.
- Educational objectives of the course Rescue Robotics:
- The students can apply the tools to program and simulate mobile rescue robots. They have developed a good overview about mobile robotics, localization and path planning in difficult scenarios.
- The students have knowledge about the work and command structures of rescue personell and the requirements on control, communcation and interaction of rescue robots with the personnel.
- The students have developed a notion of medical first response by rescue personnel as well as technical solutions to locate missing persons, determine vital signs and realize medical assistance at the scene of incident.
|
Grading through: - written exam, oral exam and/or presentation as announced by the examiner
|
Requires: |
Responsible for this module: Teachers: |
Literature: - Achim Schweikard, Floris Ernst: Medical Robotics - Springer, 2015, Jocelyne Troccaz (ed.): Medical Robotics, Wiley, 2009
- Tadokoro, Satoshi, ed.: Rescue robotics: DDT project on robots and systems for urban search and rescue. - Springer Science & Business Media, 2009. (ISBN: 978-1447157656).
- Siciliano, Bruno, and Oussama Khatib, eds.: Springer handbook of robotics. - Springer, 2016. (ISBN: 978-3319325507)
|
Language: |
Notes:Admission requirements for taking the module:
- None
Entry requirements for taking module examination(s):
- RO5800: Advanced Topics in Robotics - None
- RO5803: Rescue Robotics - Successful completion of exercises as specified at the beginning of the semester.
Module Exam(s):
- RO5800-L1: Advanced Topics in Robotics, An oral examination covering the content of both sub-modules, 100% of module grade. |
Letzte Änderung: 18.10.2022 |
für die Ukraine