Real-Time Identification of Knee Joint Walking Gait as Preliminary Signal for Developing Lower Limb Exoskeleton

Susanto Susanto,Abdullah Sani,Riska Analia,Hendawan Soebhakti,Ipensius Tua Simorangkir,Wahyu Caesarendra,Daniel Sutopo Pamungkas

doi:10.3390/electronics10172117

Susanto Susanto, Abdullah Sani + Show 5 more

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https://doi.org/10.3390/electronics10172117

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Abstract

An exoskeleton is a device used for walking rehabilitation. In order to develop a proper rehabilitation exoskeleton, a user’s walking intention needs to be captured as the initial step of work. Moreover, every human has a unique walking gait style. This work introduced a wearable sensor, which aimed to recognize the walking gait phase, as the fundamental step before applying it into the rehabilitation exoskeleton. The sensor used in this work was the IMU sensor, used to recognize the pitch angle generated from the knee joint while the user walks, as information about the walking gait cycle, before doing the investigation on how to identify the walking gait cycle. In order to identify the walking gait cycle, Neural Network has been proposed as a method. The gait cycle identification was generated to recognize the gait cycle on the knee joint. To verify the performance of the proposed method, experiments have been done in real-time application. The experiments were carried out with different processes such as walking on a flat floor, climbing up, and walking down stairs. Five subjects were trained and tested using the system. The experiments showed that the proposed method was able to recognize each gait cycle for all users as they wore the sensor on their knee joints. This study has the potential to be applied on an exoskeleton rehabilitation robot as a further research experiment.

Highlights

Walking is a very important activity for humans in carrying out their daily activities
The aim of this work is to identify the walking gait cycle where the IMU sensor can be attached to the human body; so that it can be integrated to the exoskeleton robot
In contrast with our previous work [32], in this work, we identified the human walking gait cycle by only looking at the information provided by the IMU sensors placed on both thighs for the knee joint

Summary

Introduction

Walking is a very important activity for humans in carrying out their daily activities. One of the solutions is an exoskeleton robot that is intended to help humans walk. Such a robot can be classified into two types, namely lower limb and upper limb, which have been reviewed in [1,2,3,4]. The lower limb exoskeleton is used for medical purposes, such as assisting human walking [5], training or rehabilitation due to stroke, post stroke, and spinal cord injury [6,7], and for military purposes or lifting heavy objects [8], and for gaining the ability for walking long distances [9]. In developing the lower limb exoskeleton, the most challenging part is to understand the human walking intention: whether it can predict a movement or only react to an existing one

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