Biomechanics‐Based User‐Adaptive Variable Impedance Control for Enhanced Physical Human–Robot Interaction Using Bayesian Optimization

Abstract: This paper presents a biomechanics‐based, user‐adaptive variable impedance controller designed to enhance the performance of coupled human–robot systems during motion. The controller integrates the biomechanical characteristics of human limbs and dynamically adjusts the robotic impedance parameters—specifically damping, stiffness, and equilibrium trajectory—based on real‐time estimations of the user's intent and direction of motion. The primary goal is to minimize the energy expenditure of the coupled human–ro… Show more