A 3-D rehabilitation system for upper limbs developed in a 5-year NEDO project and its clinical testing

J. Furusho, Ken’ichi Koyanagi, Yusuke Imada, Y. Fujii, K. Nakanishi, K. Domen, K. Miyakoshi, U. Ryu, S. Takenaka, A. Inoue
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引用次数: 45

Abstract

New training methods and exercises for upper limbs rehabilitation can be developed using robotics and virtual reality technologies. The technologies can make quantitative evaluations and enhance the qualitative effect of trainings. We have developed a 3D exercise machine for upper limbs (EMUL) with special actuators using electrorheological (ER) fluid. The ER actuator is composed of an ER clutch and its driven mechanism consisting of a motor and a reduction-gear unit, and we can ensure safety of patients mechanically by using them. This paper deals with the development of EMUL. We also present the development of software for motion exercise trainings and some results of clinical evaluation.
5年NEDO项目开发的上肢三维康复系统及其临床试验
利用机器人技术和虚拟现实技术可以开发新的上肢康复训练方法和练习。这些技术可以进行定量评价,提高培训的定性效果。我们开发了一种具有特殊致动器的上肢3D运动机(EMUL),使用电流变(ER)流体。电流致动器由电流离合器和由电机和减速齿轮组成的驱动机构组成,使用它们可以从机械上保证患者的安全。本文论述了EMUL的发展。本文还介绍了运动训练软件的开发和一些临床评价结果。
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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