Litcius/Paper detail

Adaptive model-free control for ankle-assistive orthosis: A robust approach to real-time gait tracking

Oussama Bey, Yacine Amirat, Samer Mohammed

2025Mechatronics9 citationsDOIOpen Access PDF

Abstract

Actuated Ankle-Foot Orthoses (AAFOs) assist dorsiflexion and plantarflexion movements at the ankle joint, supporting mobility and rehabilitation by complementing the wearer’s residual muscular activity within an assist-as-needed paradigm. Their effectiveness depends on advanced control strategies and accurate modeling of the coupled human-AAFO dynamics, which remains a challenging task. This paper presents a novel assist-as-needed control approach for an AAFO/wearer system based on an adaptive model-free framework, without the need for a dynamic model of the AAFO/wearer system. The proposed approach uses an ultra-local model, wherein a intelligent projection-based adaptive PID (iA-PID) controller is designed to achieve satisfactory tracking of a reference ankle joint trajectory. External torques affecting the AAFO/wearer system are estimated using a time-delay estimator and are compensated within the iPA-PID controller to ensure assist-as-needed control. Additionally, the projection operator constrains the evolution of the adaptive parameters, preventing actuator saturation and enabling controlled assistance delivery. Finite-time stability of the resulting closed-loop system is proven, and the final value theorem ensures that the tracking error converges to zero. The performance of the proposed approach is evaluated through simulations and real-time experiments with four healthy subjects. A comparison of tracking performance with several benchmark approaches was conducted as well as robustness tests under varying walking speeds to confirm the effectiveness and reliability of the proposed control approach.

Topics & Concepts

GaitPhysical medicine and rehabilitationTracking (education)Computer scienceAdaptive controlGait analysisControl (management)Control engineeringEngineeringControl theory (sociology)MedicineArtificial intelligencePsychologyPedagogyProsthetics and Rehabilitation RoboticsScoliosis diagnosis and treatmentSpinal Cord Injury Research