This article focuses on the design of a control system for intelligent prostheses. Learning vector quantization neural network–based model reference adaptive control method is employed to implement real-time trajectory tracking and damp torque control of intelligent lower-limb prosthesis. The method is then analyzed and proposed. A model reference control system is first built with two learning vector quantization neural networks. One neural network is used for output prediction, and the other is used for input control. The angle information of the prosthetic knee joint is utilized to train these two neural networks with the given learning algorithm. The testing results of different movement patterns verify the effectiveness of the proposed...
Background: Controlling a myoelectric prosthesis for upper limbs is increasingly challenging for the...
With medical advances through the past half century, survival rates following trauma have risen. Al...
ABSTRACT: An interesting alternative to electric actuators for medical purposes, particularly promis...
International audienceThis paper presents an adaptive control approach of an actuated orthosis for t...
A significant number of people in the world suffer from limb losses, while prosthesis is the hopeful...
Abstract. As a first step to the control of paraplegic gait by functional electrical stimulation (FE...
This chapter discusses closed-loop control development and simulation results for a semi-active abov...
As a first step to the control of paraplegic gait by functional electrical stimulation (FES), the co...
Powered prostheses hold promises to restore adaptive and robust locomotor functions to lower-limb am...
A voltage source converter (VSC) is incorporated in an active prosthetic leg design. The VSC supplie...
International audienceIn this paper we propose to drive an actuated orthosis using an adaptive contr...
This paper presents neural learning based adaptive impedance control for a lower limb rehabilitation...
International audienceThis paper deals with the rehabilitation purposes using an active orthosis dri...
Objective: Current limitations in Electromyography (EMG)-driven Neuromusculoskeletal (NMS) modeling ...
This paper presents real-time parameter updates that help to make adaptive machining process robust ...
Background: Controlling a myoelectric prosthesis for upper limbs is increasingly challenging for the...
With medical advances through the past half century, survival rates following trauma have risen. Al...
ABSTRACT: An interesting alternative to electric actuators for medical purposes, particularly promis...
International audienceThis paper presents an adaptive control approach of an actuated orthosis for t...
A significant number of people in the world suffer from limb losses, while prosthesis is the hopeful...
Abstract. As a first step to the control of paraplegic gait by functional electrical stimulation (FE...
This chapter discusses closed-loop control development and simulation results for a semi-active abov...
As a first step to the control of paraplegic gait by functional electrical stimulation (FES), the co...
Powered prostheses hold promises to restore adaptive and robust locomotor functions to lower-limb am...
A voltage source converter (VSC) is incorporated in an active prosthetic leg design. The VSC supplie...
International audienceIn this paper we propose to drive an actuated orthosis using an adaptive contr...
This paper presents neural learning based adaptive impedance control for a lower limb rehabilitation...
International audienceThis paper deals with the rehabilitation purposes using an active orthosis dri...
Objective: Current limitations in Electromyography (EMG)-driven Neuromusculoskeletal (NMS) modeling ...
This paper presents real-time parameter updates that help to make adaptive machining process robust ...
Background: Controlling a myoelectric prosthesis for upper limbs is increasingly challenging for the...
With medical advances through the past half century, survival rates following trauma have risen. Al...
ABSTRACT: An interesting alternative to electric actuators for medical purposes, particularly promis...