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Design of the control Algorithm for Improvement of the Convenience the Active-type Walking Aid  

Lee, D.K. (한국산업기술대학교 전자공학과)
Kong, J.S. (인덕대학 기계설계공학과)
Goh, M.S. (한국산업기술대학교 전자공학과)
Kang, S.J. (재활공학연구소)
Lee, S.M. (재활공학연구소)
Lee, E.H. (한국산업기술대학교 전자공학과)
Publication Information
Journal of rehabilitation welfare engineering & assistive technology / v.5, no.1, 2011 , pp. 17-25 More about this Journal
Abstract
This paper aims to find the optimal control gain for enhancing the convenience of electric walking frames and design a control algorithm. With the recent advances in medical technology, there has been a rapid increase in the aging population and a variety of mobile walking frames have been developed for improvement of the quality of life. However, the manual walking frames of such mobile aids don't have any electric motor which helps facilitate elderly users' walking and thus are not efficient enough for the old people of weak strength to use especially when moving on uneven surfaces such as slopes or thresholds. The types of electric walking frames have been developed to overcome such inefficiency. Electric walking frames require users' control operations for motor driving unlike manual frames. Therefore, when they are not properly handled, it causes considerable inconvenience to their users. The present study compared the electric walking frames with manual ones in terms of operational convenience and attempted to improve the user convenience of walking frames varying the control value for user convenience based on certain standards. This paper presented a haptic sensor designed to recognize the will to walk and measure the degree of convenience and proposed a control algorithm for improvement of convenience. For user convenience, this paper evaluated the relative convenience of walking frames in view of changing differences between the center of vehicle (COV) and the center of position (COP). With the employment of an electric walking frame and a new measuring method, all the processes were experimentally tested and validated.
Keywords
Walking Aid; Convenience Estimation; Smart Handle bar; Walking Will Force;
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