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An Enhanced Model Free Adaptive Control Approach for Functional Electrical Stimulation Assisted Knee Joint Regulation and Control

T Alif, Shubhendu Bhasin, Kanwaljeet Garg, Deepak Joshi

2023IEEE Transactions on Neural Systems and Rehabilitation Engineering19 citationsDOIOpen Access PDF

Abstract

Functional electrical stimulation has been widely used in the neurologically disabled population as a rehabilitation method because of its intrinsic and higher ability to activate paralyzed muscles. However, the nonlinear and time-varying nature of the muscle against exogenous electrical stimulus makes it very challenging to achieve optimal control solutions in real-time, that results in difficulty in achieving functional electrical stimulus-assisted limb movement control in the real-time rehabilitation process. Model-based control methods have been suggested in many functional electrical stimulations elicited limb movement applications. However, in the presence of uncertainties and dynamic variations during the process the model-based control methods are unable to give a robust performance. In this work, a model-free adaptable control approach is designed to regulate knee joint movement with electrical stimulus assistance without prior knowledge of the dynamics of the subjects. The model free adaptive control with a data-driven approach is provided with recursive feasibility, compliance with input constraints, and exponential stability. The experimental results obtained from both non-disabled participants and a participant with spinal cord injury validate the ability of the proposed controller to allocate electrical stimulus for regulating seated knee joint movement in the pre-defined trajectory.

Topics & Concepts

Functional electrical stimulationControl theory (sociology)Stimulus (psychology)Functional movementMotor controlComputer scienceRehabilitationPopulationPhysical medicine and rehabilitationAdaptive controlStimulationNeurosciencePsychologyControl (management)Artificial intelligenceMedicineEnvironmental healthPsychotherapistMuscle activation and electromyography studiesStroke Rehabilitation and RecoveryEEG and Brain-Computer Interfaces