The wearable lower limb exoskeleton is a typical human-in-loop human-robot coupled system,which conducts natural and close cooperation with the human by recognizing human locomotion timely.Requiring subject-specific training is the main challenge of the existing approaches,and most methods have the problem of insufficient recognition.This paper proposes an integral subject-adaptive real-time Locomotion Mode Recognition(LMR)method based on GA-CNN for a lower limb exoskeleton system.The LMR method is a combination of Convolutional Neural Networks(CNN)and Genetic Algorithm(GA)-based multi-sensor information selection.To improve network performance,the hyper-parameters are optimized by Bayesian optimization.An exoskeleton prototype system with multi-type sensors and novel sensing-shoes is used to verify the proposed method.Twelve locomotion modes,which composed an integral locomotion system for the daily application of the exoskeleton,can be recognized by the proposed method.According to a series of experiments,the recognizer shows strong comprehensive abilities including high accuracy,low delay,and sufficient adaption to different subjects.

Jiaqi Wang;Dongmei Wu;Yongzhuo Gao;Xinrui Wang;Xiaoqi Li;Guoqiang Xu;Wei Dong

State Key Laboratory of Robotics and System,Harbin Institute of Technology,Harbin 150001,China;Weapon Equipment Research Institute,China South Industries Group Corporation,Beijing 102202,China

仿生工程学报（英文版）

[1]Jiaqi Wang;Dongmei Wu;Yongzhuo Gao;Xinrui Wang;Xiaoqi Li;Guoqiang Xu;Wei Dong-.Integral Real-time Locomotion Mode Recognition Based on GA-CNN for Lower Limb Exoskeleton)[J].仿生工程学报（英文版）,2022(05):1359-1373

Exoskeleton,recognizer

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