Autonomous Systems (M.Sc.)
R&D Projects
Industrial Affiliations
Students have the opportunity to carry out reasearch work associated with industrial entities such as IAIS, Kuka, IPA, GPS, BGIA, Infineon, and Bertrand.
Partner universities
A transfer of students, and sometimes even faculty, to and from the University of Oebero, Sweden, and the University of Toronto, Canada, provides students with great opportunities for more diverse exposure and interaction.
Projects at HBRS
Our program is involved in several national and international projects, among them:
- RoboLand: Telepresence robots for home environments and care in remote regions in Germany
- ROPOD: Ultra-flat, ultra-flexible, and cost-effective robotic pods for handling legacy in logistics
- RoboCup@Home: Robotic applications that can assist humans in everyday life
In the context of these projects, student R&D projects have been defined; some of them take place directly at the university, some of them at the cooperating partner companies.
Labs & Equipment
The program maintains the RoboCup labs as well as the ROPOD/RoboLand lab. In addition, labs such as the Immersion Square and the Computer Vision lab are also available should students wish to persue their work within these fields.
A well-equipped lab was set up and dedicated exclusively for our students at the Fraunhofer Institute IAIS. Thus, sophisticated R&D projects and Master's projects become possible using the state-of-the-art technology with robots deployed at the Fraunhofer Institute IAIS. Students receive individual support from scientists who provide up-to-date topics and problem statements from their current research and development projects.
Some examples of research topics have included the development of hardware, software and mechanical components for a team of robots participating in RoboCup Soccer as well as @Home. A variety of mobile robot platforms allow the study of various problems, from the development and integration of novel sensors to the study of wireless communication and cooperation under real-time conditions.