Abstract
This paper describes a system design and hybrid control algorithm of an electrically actuated lower limb exoskeleton (LLE). The system design mainly includes three parts: mechanical structure design, actuation system design and sensor system design. According to the initial state of the joint angle, LLE can be divided into Non-anthropomorphic state (NAS) and anthropomorphic state (AS). The human motion intention (HMI) estimation can be divided into gait phase classification and reference trajectory estimation. The fuzzy logic is used to detect different phases in the gait phase classification. In the reference trajectory estimation, the kinematic model of the LLE is utilized to obtain a continuous joint trajectory, which is used as input of the control law. To make the LLE accurately follow the movement of people and remain stable, a hybrid dual-mode control strategy is proposed in this paper, i.e., the adaptive impedance control (AIC) method is used to improve the stability and resistance to shock in stance phase, and the active disturbance rejection control with the fast terminal sliding mode control (ADRC-FTSMC) method is employed to improve the response speed and the tracking precision in swing phase. Furthermore, in order to solve the torque discontinuity in the switching process, a smoothing method is proposed during the transition. Finally, the prototype experiments were set up to verify the tracking performance and power-assisted effect of the proposed exoskeleton. The experiments results show the LLE can achieve excellent tracking performance and power-assisted effect based on the proposed HMI methodology and hybrid dual-mode control strategy.
Highlights
The development of lower limb exoskeletons (LLEs) that improve the strength and endurance of human users has received widespread attention [1]–[3]
The back part of upper sole and the middle sole are connected by six-dimensional force sensor, which can measure the human intention via foot movement
To achieve smooth switching from AI mode to AF mode or from AF mode to AI mode, a smoothing method is proposed during the transition in Initial Contact (IC) phase and Initial Swing (ISw) phase
Summary
The development of lower limb exoskeletons (LLEs) that improve the strength and endurance of human users has received widespread attention [1]–[3]. Argo Medical Technologies of Israel unveiled the ReWalk series for independent walking of patients with spinal cord injury, which made significant contributions to the research of LLEs [13] Despite those efforts, there are still many challenges in the architecture design, the human motion intention estimation and the control strategy design. The active joint moves fast in the swing phase, it needs to support the weight of an LLE and resist the impact in the support phase Based on those characteristics, a hybrid dual-mode control based on HMI is proposed.
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