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Human Collaborative Control of Lower-Limb Prosthesis Based on Game Theory and Fuzzy Approximation

Haisheng Xia, Ming Pi, Lingjing Jin, Rong Song, Zhijun Li

2024IEEE Transactions on Cybernetics13 citationsDOI

Abstract

For leg prosthesis user, the soft tissue and skin under the stump of are not accustomed to weight bearing, excessive continuous contact pressure can lead to the risk of degenerative tissue ulceration. This article presents a novel human-robot collaborative control scheme that achieves control weight self-adjustment for robotic prostheses to minimize interaction torque. To establish the human-robot interaction relationship, we regard the contact pressure between human residual limb and the prosthetic receiving cavity as the interaction force. We aim at reducing the interaction force under the premise of minimally changing the original motion trajectory of the robotic prosthesis. The control scheme mainly includes trajectory optimization based on a dual-agent game control scheme under a cooperative relationship, and a fuzzy logic system for improving the control accuracy of trajectory tracking of robotic prostheses with unknown dynamic parameters. Experiments were carried out on two amputee participants to verify the proposed human-robot interactive control scheme in a robotic prosthesis. The results show that the interaction torque could be reduced while maintaining minimal trajectory tracking error. The proposed control scheme could potentially facilitate the dexterous manipulation of leg prostheses, thus benefiting amputees.

Topics & Concepts

Fuzzy logicGame theoryProsthesisControl (management)Fuzzy control systemComputer sciencePhysical medicine and rehabilitationMathematicsMedicineMathematical economicsArtificial intelligenceMuscle activation and electromyography studiesElevator Systems and Control
Human Collaborative Control of Lower-Limb Prosthesis Based on Game Theory and Fuzzy Approximation | Litcius