Current developments of robotic hip exoskeleton toward sensing, decision, and actuation: A review.

IF 3.4 Q2 ENGINEERING, BIOMEDICAL Wearable technologies Pub Date : 2022-07-15 eCollection Date: 2022-01-01 DOI:10.1017/wtc.2022.11

Canjun Yang, Linfan Yu, Linghui Xu, Zehao Yan, Dongming Hu, Sheng Zhang, Wei Yang

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Abstract

The aging population is now a global challenge, and impaired walking ability is a common feature in the elderly. In addition, some occupations such as military and relief workers require extra physical help to perform tasks efficiently. Robotic hip exoskeletons can support ambulatory functions in the elderly and augment human performance in healthy people during normal walking and loaded walking by providing assistive torque. In this review, the current development of robotic hip exoskeletons is presented. In addition, the framework of actuation joints and the high-level control strategy (including the sensors and data collection, the way to recognize gait phase, the algorithms to generate the assist torque) are described. The exoskeleton prototypes proposed by researchers in recent years are organized to benefit the related fields realizing the limitations of the available robotic hip exoskeletons, therefore, this work tends to be an influential factor with a better understanding of the development and state-of-the-art technology.

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机器人髋关节外骨骼在传感、决策和驱动方面的最新进展综述

摘要人口老龄化是当今全球面临的挑战，行走能力受损是老年人的共同特征。此外，一些职业，如军队和救援人员需要额外的体力帮助来有效地完成任务。机器人髋关节外骨骼可以支持老年人的行走功能，并通过提供辅助扭矩来增强健康人正常行走和负重行走时的人类表现。本文综述了机器人髋关节外骨骼的研究进展。此外，还介绍了驱动关节的框架和高级控制策略(包括传感器和数据采集、步态相位识别方法、辅助力矩生成算法)。近年来研究人员提出的外骨骼原型是为了使相关领域受益而组织的，认识到现有机器人髋关节外骨骼的局限性，因此，这项工作往往是对发展和最新技术的更好理解的影响因素。

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