Finite State Control of FES-Assisted Walking with Spring Brake Orthosis

2011 UkSim 13th International Conference on Computer Modelling and Simulation Pub Date : 2011-03-30 DOI:10.1109/UKSIM.2011.43

R. Jailani, M. Tokhi, S. Gharooni, M. Joghtaei

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引用次数: 8

Abstract

This paper presents finite state control (FSC) of paraplegic walking with wheel walker using functional electrical stimulation (FES) with spring brake orthosis (SBO). The work is a first effort towards restoring natural like swing phase in paraplegic gait through a new hybrid orthosis, referred to as spring brake orthosis (SBO). This mechanism simplifies the control task and results in smooth motion and more-natural like trajectory produced by the flexion reflex for gait in spinal cord injured subjects. The study is carried out with a model of humanoid with wheel walker using the Visual Nastran (Vn4D) dynamic simulation software. Stimulated muscle model of quadriceps is developed for knee extension. Fuzzy logic control (FLC) is developed in Matlab/Simulink to regulate the muscle stimulation pulse-width required to drive FES-assisted walking gait and the computed motion is visualised in graphic animation from Vn4D and finite state control is used to control the transaction between all walking states. Finite state control (FSC) is used to control the switching of brakes, FES and spring during walking cycle.

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弹簧制动矫形器辅助fes行走的有限状态控制

本文介绍了利用功能电刺激(FES)和弹簧制动矫形器(SBO)对瘫痪患者轮式助行器进行有限状态控制。这项工作是通过一种新的混合矫形器，即弹簧制动矫形器(SBO)，首次尝试恢复截瘫患者步态的自然摆动阶段。该机制简化了脊髓损伤受试者的控制任务，使其步态弯曲反射产生的运动更平滑，轨迹更自然。采用visualnastran (Vn4D)动态仿真软件对带轮式步行器的仿人机器人模型进行了研究。建立了股四头肌受刺激的膝关节伸展肌肉模型。在Matlab/Simulink中开发了模糊逻辑控制(FLC)来调节驱动fes辅助步行步态所需的肌肉刺激脉宽，计算得到的运动在Vn4D中以图形动画的形式显示，并使用有限状态控制来控制所有步行状态之间的交互。有限状态控制(FSC)用于控制行走周期中制动器、FES和弹簧的切换。

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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2011 UkSim 13th International Conference on Computer Modelling and Simulation

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