Steering assist system for a cycling wheelchair based on braking control

In this study, we propose a steering control method for a cycling wheelchair. The commercially available cycling wheelchair is a pedal-driven system that is similar to a bicycle, and patients with impairment of their lower extremities can move the wheelchair based on the pedaling force if they can slightly move their legs by themselves. The user can also change the wheelchair direction using the steering handle. However, right and left turns are perceived differently and a large steering torque is required while operating the steering handle because of hardware problems associated with the cycling wheelchair. To overcome this problem, we propose a new hardware solution and a method for steering motion control using servo brakes for the cycling wheelchair. The proposed method is applied to the developed cycling wheelchair, and the experimental results illustrate the validity of the system.

[1]  David P. Miller,et al.  Design and testing of a low-cost robotic wheelchair prototype , 1995, Auton. Robots.

[2]  Toshiyuki Murakami,et al.  Torque sensorless control in multidegree-of-freedom manipulator , 1993, IEEE Trans. Ind. Electron..

[3]  J. Edward Colgate,et al.  Passive Robotics: An Exploration of Mechanical Computation , 1990, 1990 American Control Conference.

[4]  Yoky Matsuoka,et al.  Path guidance control for a safer large scale dissipative haptic display , 2008, 2008 IEEE International Conference on Robotics and Automation.

[5]  Kazuhiro Kosuge,et al.  Transporting an Object by a Passive Mobile Robot with Servo Brakes in Cooperation with a Human , 2009, Adv. Robotics.

[6]  Kazuhiro Kosuge,et al.  Environment-adaptive control algorithm of power assisted cycle , 2003, IECON'03. 29th Annual Conference of the IEEE Industrial Electronics Society (IEEE Cat. No.03CH37468).

[7]  Kazuhiro Kosuge,et al.  Motion Control of Passive Intelligent Walker Using Servo Brakes , 2007, IEEE Transactions on Robotics.

[8]  Kazuhiro Kosuge,et al.  Motion control of passive haptic device using wires with servo brakes , 2010, 2010 IEEE/RSJ International Conference on Intelligent Robots and Systems.

[9]  Wayne J. Book,et al.  Steerability in Planar Dissipative Passive Robots , 2010, Int. J. Robotics Res..

[10]  T. Murakami,et al.  Power-assist control of an electric wheelchair considering step passage , 2007, 2007 IEEE/ASME international conference on advanced intelligent mechatronics.

[11]  J. Edward Colgate,et al.  Cobot architecture , 2001, IEEE Trans. Robotics Autom..

[12]  Kazuhiro Kosuge,et al.  Regenerative brake control of cycling wheelchair with passive behavior , 2013, 2013 IEEE International Conference on Robotics and Automation.