Michael Panzirsch, a researcher at the DLR Institute of Robotics and Mechatronics, explains, "The new elasto-plastic approach makes human-robot collaboration much easier, as the robot can now clearly distinguish between its own programmed movements and external influences from the environment. The robot should only react plastically to the influence of the environment, meaning it should move out of the way and remain in that spot."
This innovation also simplifies the way robots interact with objects that have defined movement constraints. For example, opening a hinged door requires a specific rotational motion. With the new controller, a robot can intuitively follow this movement without requiring an explicit model, much like a person instinctively adjusting their grip when opening a door with their eyes closed.
Beyond space applications, this advanced technology is proving beneficial in the caregiving sector. Within the SMiLE project (Services for People with Living Conditions and Restrictions), DLR researchers, including Jorn Vogel, are working on robotic assistance systems to support individuals with physical limitations. The elasto-plastic controller facilitates human-robot cooperation without requiring complex sensor systems, allowing robots to seamlessly assume assistive roles in everyday life.
Advancements in compliant robotics are shaping a future where robots integrate more naturally into human environments, improving safety and functionality. By enhancing their ability to interpret and adapt to human needs, these technologies pave the way for more intuitive and effective robotic assistance.
Research Report:Virtual elasto-plastic robot compliance to active environments
Related Links
DLR Institute of Robotics and Mechatronics
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