Fall detection for elderly by using an intelligent cane robot based on center of pressure (COP) stability theory

2014 International Symposium on Micro-NanoMechatronics and Human Science (MHS) Pub Date : 2014-11-01 DOI:10.1109/MHS.2014.7006152

P. Di, Jian Huang, Shotaro Nakagawa, K. Sekiyama, T. Fukuda

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引用次数: 6

Abstract

An intelligent cane robot was designed for aiding the elderly and handicapped people walking. The robot consists of a stick, a group of sensors and an omni-directional basis driven by three Swedish wheels. Multiple sensors were used to recognize the user's “walking intention”, which is quantitatively described by a new concept called intentional direction (ITD). Based on the guidance of filtered ITD, a novel intention-based admittance motion control (IBAC) scheme was proposed for the cane robot. To detect the fall of user, a detection method based on Dubois possibility theory was proposed using the combined sensor information from force sensors, a laser ranger finder (LRF) and an on-shoe load sensor. The human fall model was represented in a two-dimensional space, where the relative position between the center of pressure (COP) and the center of support triangle was utilized as a significant feature. The effectiveness of proposed fall detection method was also confirmed by experiments.

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基于压力中心稳定性理论的智能手杖机器人老年人跌倒检测

为帮助老年人和残疾人行走，设计了一种智能手杖机器人。该机器人由一根操纵杆、一组传感器和由三个瑞典轮驱动的全方位基础组成。使用多个传感器来识别用户的“行走意图”，该“行走意图”由一个称为意向方向(intentional direction, ITD)的新概念定量描述。基于滤波过渡段的导引，提出了一种基于意向的手杖机器人导纳运动控制方案。为了检测使用者的跌倒，提出了一种基于杜波依斯可能性理论的检测方法，该方法将力传感器、激光测距仪(LRF)和鞋上负载传感器的传感器信息结合起来进行检测。在二维空间中，利用压力中心(COP)与支撑三角形中心之间的相对位置作为人体跌倒模型的重要特征。通过实验验证了该方法的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2014 International Symposium on Micro-NanoMechatronics and Human Science (MHS)

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