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1 – 2 of 2Mohamed Amine Alouane, Hala Rifai, Kwangtaek Kim, Yacine Amirat and Samer Mohammed
This paper aims to deal with the design of new hybrid approach for the assistance of the flexion extension movement of the knee joint.
Abstract
Purpose
This paper aims to deal with the design of new hybrid approach for the assistance of the flexion extension movement of the knee joint.
Design/methodology/approach
The control approach combines the use of a knee joint orthosis along with functional electrical stimulation (FES) within an assist-as-needed paradigm. An active impedance controller is used to assist the generation of muscular stimulation patterns during the extension sub-phase of the knee joint movement. The generated FES patterns are appropriately tailored to achieve flexion/extension movement of the knee joint, which allows providing the required assistance by the subject through muscular stimulation. The generated torque through stimulation is tracked by a non-linear disturbance observer and fed to the impedance controller to generate the desired trajectory that will be tracked using a standard proportional derivative controller.
Findings
The approach was tested in experiments with two healthy subjects. Results show satisfactory performances in terms of estimating the knee joint torque, as well as in terms of cooperation between the FES and the orthosis actuator during the execution of the knee joint flexion/extension movements.
Originality/value
The authors designed a new hybrid approach for the assistance of the flexion extension movement of the knee joint, which has not been studied yet. The control approach combines the use of a knee joint orthosis along with FES within an assist-as-needed paradigm.
Details
Keywords
Mohamed E. Lalami, Hala Rifaï, Samer Mohammed, Walid Hassani, Georges Fried and Yacine Amirat
– The purpose of this paper is the control of lower limb orthosis acting at the knee joint level for a passive rehabilitation purpose.
Abstract
Purpose
The purpose of this paper is the control of lower limb orthosis acting at the knee joint level for a passive rehabilitation purpose.
Design/methodology/approach
A control law, based on a saturated proportional derivative controller, is proposed in order to drive the shank-foot-orthosis system along a desired trajectory.
Findings
The proposed control law is tested in real time using the orthosis EICOSI of the LISSI-Laboratory. The experiments show that the proposed control law is capable of providing satisfactory trajectory tracking performance given only the knee joint angle measurement. Moreover, the control law is robust with respect to external disturbances.
Originality/value
Robust control of an actuated lower limb orthosis.
Details