Sugeeth Gopinathan scite author profile

Sugeeth Gopinathan

3Publications

23Citation Statements Received

32Citation Statements Given

How they've been cited

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Affiliations

Technische Universität Braunschweig, Bielefeld University

Publications

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A User Study on Personalized Stiffness Control and Task Specificity in Physical Human–Robot Interaction

2017

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An ideal physical human-robot interaction (pHRI) should offer the users robotic systems that are easy to handle, intuitive to use, ergonomic and adaptive to human habits and preferences. But the variance in the user behavior is often high and rather unpredictable, which hinders the development of such systems. This article introduces a Personalized Adaptive Stiffness controller for pHRI that is calibrated for the user's force profile and validates its performance in an extensive user study with 49 participants on two different tasks. The user study compares the new scheme to conventional fixed stiffness or gravi tation compensation controllers on the 7DOF KUKA LWR IVb by employing two typical jointmanipulation tasks. The results clearly point out the importance of considering task specific parameters and human specific parameters while designing control modes for pHRI. The analysis shows that for simpler tasks a standard fixed controller may perform sufficiently well and that respective task dependency strongly prevails over individual differences. In the more complex task, quantitative and qualitative results reveal differ ences between the respective control modes, where the Personalized Adaptive Stiffness controller excels in terms of both performance gain and user preference. Further analysis shows that human and task parameters can be combined and quantified by considering the manipulability of a simplified human arm model. The analysis of user's interaction force profiles confirms this finding.

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A user study on human-robot-interactive recovery for industrial assembly problems

Muxfeldt

Gopinathan

Coenders

et al. 2017

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A user study on personalized adaptive stiffness control modes for human-robot interaction

Gopinathan

Ötting

Steil

2017

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