The Robotics and Mechatronics Center (RMC) is a cluster and DLR’s competence center for research and development in the areas of robotics, mechatronics, and optical systems. Mechatronics is the closest integration of mechanics, electronics and information technology for the realization of “intelligent mechanisms” which interact with their environment. The core competence of RMC is the interdisciplinary (virtual) design, computer-aided optimization and simulation, as well as implementation of complex mechatronic systems and human-machine interfaces. In the robotics community, the center is considered as one of the world leading institutions.
The research efforts around Rollin 'Justin investigate compliant whole-body motions and their effects on the environment. Exemplary everyday household tasks include window wiping, sweeping, or vacuuming the floor.
DLR (CC-BY 3.0).
The ROMO provides a flexible research platform for control and estimation developments for energy management and vehicle dynamics.
Real-time telepresent and virtual interactions require haptic devices to realistically display forces to the user. HUG is a bimanual haptic device composed of two Light-Weight Robot arms that are capable of generating highly dynamic interaction forces to the human hand. HUG is used to conduct research in various applications in remote and virtual environments, comprising telerobotics with SpaceJustin, virtual assembly verifications, rehabilitation tasks, and training of astronauts and mechanics.
The Institute of Robotics and Mechatronics and the Institute of System Dynamics and Control moved into the new premises of the RMC in summer 2015. With space for 300 colleagues and 80 students, the new building will foster closer cooperation between the two institutes within the RMC.
The DLR omniRob is based on a mobile platform from KUKA and the KUKA LBR4+ extended with sensors and computers. The goal of our work is a robotic system which is simple to use in real industrial applications utilizing its autonomy.
The mobile humanoid robot Rollin' Justin is utilized as a research platform for autonomous dexterous mobile manipulation in human environments. In the future humanoid robots are envisioned in household applications as well as in space environments.
The application of technology and systems developed in the cluster are focusing primarily on the programmatic tasks in the research areas space, aeronautics, and transport. The developed technologies have direct impact and applications in other societal areas such as medical robotics, factory of the future, and personal robot assistance. Technology transfer is a major goal of RMC.
The Robotics and Mechatronics Center (RMC) is a cluster formed by three institutes with key research areas for inter-institutional cooperations.
The institutes are: