|
|
|
| A Control System for the Myoelectric Prosthetic Hand with Adjustable Grip Speed |
| Institute of Biomechanics and Rehabilitation Engineering, University of Shanghai for Science and Technology, Shanghai 200093,China |
|
|
|
|
Abstract In this study,an intelligent electromyography prosthetic hand with adjustable grip speed was developed. In this system, the surface electromyography signals (sEMG) acquierd by surface electrodes was preliminarily amplified about 150 times and processed using frequency domain analysis method. Through threshold and the equivalent calculation, the control signal was input into the driving circuit of DC micro motor for the prosthetic hand. 10 volunteers attended the gripping experiments and each experiment was repeated five times. Under the condition that the amplitudes of sEMG were 500, 1 000and 1 500 mV, the mean and standard deviation of the signals, including output voltage, output current and grip strength, were recorded. The relations among output voltage, output current, grip strength and sEMG ampltude were obtained by fitting analysis. The results indicated that the prosthetic hand speed positively corelated with the output voltage. with load but not overload, grip strength increased with the increasing output current. The results proved the stability of the developed system. And the grasping speed of the system can be adjusted as well. The system with adjustable grip speed improves the flexibility of the prosthet hand.
|
|
|
|
|
|
[1]郝智秀. 握取器握力自适应控制 [J]. 清华大学学报,1994, 29(3):54-56.
[2]Parker PA, Scott RN. Myoelectric control of prostheses CRC [J]. Critical Reviews in Biomedical Engineering, 1992,13(4):283-310.
[3]郝智秀. 新型假肢握取器感觉及感觉反馈控制原理和方法的研究 [D]. 北京:清华大学, 1994.
[4]Bergman K, Ornholmer L, Zackrisson K, et al. Functional benefit of an adaptive myoelectric prosthetic hand compared to a conventional myoelectric hand [J]. Prosthetics and Orthotics Int,1992,16:32-37.
[5]Herberts P, Almstrom C. Clinical application study of multifunctional prosthetic hands[J]. Bone Joint Surgery,1978,60(4):522-560.
[6]雷敏、王志中. 肌电假肢控制中的表面肌电信号的研究进展与展望[J]. 中国医疗器械杂志, 2001,25(3): 156-160.
[7]Wilms E. Der Technik der vaduzer Hand[J]. Orthopaedic Tehnik, 1951,2:7.
[8]Kobrimki AE, Bolhovitin SV, Voskoboinkova LM, et al. Problems of bioelectric control in automatic and remote control [C]// Proceedings of the First International Congress of International Federation of Automatic Control. Moscow: International Federation of Automatic Control, 1960,2:65-70.
[9]Herberts P, Amstrom C, Caine K. Clinical application study of multifunctional prosthetic hands [J]. J Bone Joint Surg Br, 1978, 60(4):552-560.
[10]Moon I, Lee M, Chu J. Wearable EMGbased HCI for electricpowered wheelchair users with motor disabilities[C]//Proceedings of the 2005 IEEE International Conference on Robotics and Automation. Barcelona: IEEE, 2005:2649-2654.
[11]Reddy NP, Gupta V. Toward direct biocontrol using surface EMG signals: control of finger and wrist joint models [J]. Med Eng Phys, 2007, 29(3):398-403.
[12]DisselhorstKlug C, SchmitzRode T, Rau G. Surface electromyography and muscle force: limits in sEMGforce relationship and new approaches for applications [J]. Clin Biomech (Bristol, Avon), 2009, 24(3):225-235. |
|
|
|
