Design and Validation of a Torso-Dynamics Estimation System (TES) for
Hands-Free Physical Human-Robot Interaction*
Abstract
This is a submitted draft of a paper on the design and validation of a
Torso-dynamics Estimation System (TES). The TES consisted of a Force
Sensing Seat (FSS) and an inertial measurement unit (IMU) that measured
the kinetics and kinematics of the subject’s torso motions. The FSS
estimated the 3D forces, 3D moments, and 2D COPs while the IMU estimated
the 3D torso angles. To validate the TES, the FSS and IMU estimates were
compared to gold standard research equipment (AMTI force plate and
Qualisys motion capture system, respectively).
Potential applications of the TES include physical human-robot
interaction (pHRI) for navigating riding or remote robots.
The data and data processing code from this study are open source and
can be found via the following links:
IEEE DataPort with data:
https://ieee-dataport.org/documents/validation-study-torso-dynamics-estimation-system-tes-hands-free-physical-human-robot
GitHub repository with code:
https://github.com/ssong47/TorsodynamicsEstimationSystem
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