This paper gives an overview of the advancements in humanoid robotics at the German Aerospace Center (DLR) over the last 10 years. The development started with focus on dexterous, bimanual manipulation with the wheel-based humanoid Rollin’ Justin and continued with legged locomotion on TORO. With Rollin’ Justin, the team aims to create a cognitive robotic system that can reason about compliant manipulation tasks, based on intelligent decisions according to the actual state of the environment. These humanoids are expected to can perform a multitude of complex tasks and hereby contributing to human welfare. Possible fields of use include service robotics, industrial co-workers, search and rescue, space applications, medical robotics, etc. The experts suggest that teleoperated scenarios are feasible in short term, developing in long term towards shared or even full autonomy. Still, advancements must be made in almost all areas, starting from mechatronic robustness, reliability and energy efficiency, over multimodal perception and control up to autonomous planning and Artificial Intelligence-based reasoning. Development of interaction interfaces and communication modalities to humans will play an increasingly key role in the future.
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June 2015
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From Torque-Controlled to Intrinsically Compliant Humanoid Robots
Christian Ott,
Christian Ott
1
German Aerospace, Center (DLR), Webling, Germany
1Corresponding author
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Alexander Dietrich,
Alexander Dietrich
German Aerospace, Center (DLR), Webling, Germany
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Daniel Leidner,
Daniel Leidner
German Aerospace, Center (DLR), Webling, Germany
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Alexander Werner,
Alexander Werner
German Aerospace, Center (DLR), Webling, Germany
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Johannes Englsberger,
Johannes Englsberger
German Aerospace, Center (DLR), Webling, Germany
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Bernd Henze,
Bernd Henze
German Aerospace, Center (DLR), Webling, Germany
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Sebastian Wolf,
Sebastian Wolf
German Aerospace, Center (DLR), Webling, Germany
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Maxime Chalon,
Maxime Chalon
German Aerospace, Center (DLR), Webling, Germany
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Werner Friedl,
Werner Friedl
German Aerospace, Center (DLR), Webling, Germany
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Alexander Beyer,
Alexander Beyer
German Aerospace, Center (DLR), Webling, Germany
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Oliver Eiberger,
Oliver Eiberger
German Aerospace, Center (DLR), Webling, Germany
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Alin Albu-Schäffer
Alin Albu-Schäffer
German Aerospace, Center (DLR), Webling, Germany
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Christian Ott
German Aerospace, Center (DLR), Webling, Germany
Alexander Dietrich
German Aerospace, Center (DLR), Webling, Germany
Daniel Leidner
German Aerospace, Center (DLR), Webling, Germany
Alexander Werner
German Aerospace, Center (DLR), Webling, Germany
Johannes Englsberger
German Aerospace, Center (DLR), Webling, Germany
Bernd Henze
German Aerospace, Center (DLR), Webling, Germany
Sebastian Wolf
German Aerospace, Center (DLR), Webling, Germany
Maxime Chalon
German Aerospace, Center (DLR), Webling, Germany
Werner Friedl
German Aerospace, Center (DLR), Webling, Germany
Alexander Beyer
German Aerospace, Center (DLR), Webling, Germany
Oliver Eiberger
German Aerospace, Center (DLR), Webling, Germany
Alin Albu-Schäffer
German Aerospace, Center (DLR), Webling, Germany
1Corresponding author
Mechanical Engineering. Jun 2015, 137(06): S7-S11 (5 pages)
Published Online: June 1, 2015
Citation
Ott, C., Dietrich, A., Leidner, D., Werner, A., Englsberger, J., Henze, B., Wolf, S., Chalon, M., Friedl, W., Beyer, A., Eiberger, O., and Albu-Schäffer, A. (June 1, 2015). "From Torque-Controlled to Intrinsically Compliant Humanoid Robots." ASME. Mechanical Engineering. June 2015; 137(06): S7–S11. https://doi.org/10.1115/1.2015-Jun-5
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