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New exercise system for waist and back and its effect detection


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New exercise system for waist and back and its effect detection
Hu Yangyang1Wu Weibing2Li Jiahai2Tao Weijun1
1.School of Mechanical Engineering,Nanjing University of Science and Technology,Nanjing 210094,China; 2.First Engineering Branch,China Petroleum Pipeline Bureau,Langfang 065000,China
waist and back exercise system three-dimensional motion detection surface electromyography integrated electromyography root mean square amplitude
A new exercise system for waist and back is designed aiming at the high incidence of waist and back diseases,such as lumbar muscle strain,back pain.The technical scheme of the new system is proposed by imitating the “8” action of horse riding and according to the principle of bionics,and its mechanical structure,control system are designed.A prototype of this new exercise system for waist and back is manufactured,and the experiments of three-dimensional motion detection and surface electromyography(sEMG)detection are implemented.The experimental result shows that the integrated electromyography(IEMG)and root mean square(RMS)amplitude of lumbar quadrate muscle and erector spinae are more than three times higher than those when the experimenter is sitting quietly.The designed system can adjust the muscle movement characteristics of waist and back effectively.


[1] 韩雯,常钧.现代康复工程的发展概述[J].医疗装备,2007,20(4):13-15.
Han Wen,Chang Jun.The development overview of modern rehabilitation engineering[J].Chinese Journal of Medical Device,2007,20(4):13-15.
Wang Shuyi.Simulation horse-riding treatment to be restored to health in training application paralysis child resolute[J].Chinese Manipulation & Rehabilition Medicine,2010,1(36):33-33.
[3]Wiggers N,Nauwelaerts S L,Hobbs S J,et al.Functional locomotor consequences of uneven forefeet for trot symmetry in individual riding horses.[J].Plos One,2015,10(2):367-372.
[4] Hobbs S J,Clayton H M.Sagittal plane ground reaction forces,centre of pressure and centre of mass in trotting horses[J].Veterinary Journal,2013,198:e14-e19.
[5]Tacano M.Development and physical training evaluation of horseback riding therapeutic equipment[C]//Proceedings of 2003 IEEE/ASME International Conference on Advanced Intelligent Mechatronics(AIM 2003).New York,USA:IEEE,2003:1239-1243.
[6]Shinomiya Y,Nomura J,Yoshida Y,et al.Horseback riding therapy simulator with VR technology[C]//ACM Symposium on Virtual Reality Software & Technology.New York,USA:ACM,1997:9-14.
[7]Roope Eskola,Heikki Handroos.Novel horseback riding simulator based on 6-DOF motion measurement,a motion base,and interactive control of gaits[J].Nephrology Dialysis Transplantation,2013,27(16):1249-1257.
[8]Mcintire K L,Asher M A,Burton D C,et al.Treatment of adolescent idiopathic scoliosis with quantified trunk rotational strength training:A pilot study[J].Journal of Spinal Disorders & Techniques,2008,21(5):349-358.
Qin Younian,Shen Hongbin,Li Xianhua,et al.The research and application of biological twist rehabilitation training machine.[J].Science & Technology of Stationery & Sporting Goods,2014,5(9):22-24.
Sang Xiufeng,Chen Sun,Chen Bai,et al.Research of rope tension and workspace of wire-driven parallel robot[J].Applied Science and Technology,2014,41(4):51-55.
Wang Keyi,Zhang Lixun,Meng Hao.Elasticity of 1R2T wire-driven parallel rehabilitation robots[J].Journal of Nanjing University of Science and Technology,2010,34(5):602-607.
Li Jianhua.Application progress of surface electromyography in rehabilitation evaluation[J].Practical Journal of Clinical Medicine,2014,11(5):4-6.
Wu Hong,Ran Chunfeng.Application of surface electromyography during muscle trainings[J].Journal of Clinical Rehabilitative Tissue Engineering Research,2008,12(39):7739-7743.
Chen Shengli,Zhang Li.Efficiency and sensitivity of assessment of muscle fatigue by utilizing sEMG parameters[J].Journal of Wuhan Institute of Physical Education,2011,45(12):71-77.


Last Update: 2016-12-30