DESIGN OF WEARABLE FOREARM FLEXIBLE EXOSKELETON ROBOT BASED ON SMA SPRING

Ruilin Hou,∗ Yindi Wang,∗ Xiaotong Zhang,∗ Xue Qin,∗ and Yangwei Wang∗

References

  1. [1] A. Anouti and W. Koller, Tremor disorders diagnosis andmanagement, The Western Journal of Medicine, 162(6), 1995,510–513.
  2. [2] J. Zhang, Y. Xing, X. Ma, and L. Feng, Differential diagnosis ofparkinson disease, essential tremor, and enhanced physiologicaltremor with the tremor analysis of EMG, Parkinson’s Disease,2017, 2017, 1597907.
  3. [3] M. Xiloyannis, L. Cappello, K. Binh, C. Antuvan, and L. Masia,Preliminary design and control of a soft exosuit for assistingelbow movements and hand grasping in activities of dailyliving, Journal of Rehabilitation and Assistive TechnologiesEngineering, 4, 2017, 2055668316680315.
  4. [4] Z. Kadivar, C. Beck, R. Rovekamp, O’Malley, and M.Malley, Single limb cable driven wearable robotic device forupper extremity movement support after traumatic braininjury, Journal of Rehabilitation and Assistive TechnologiesEngineering, 8, 2021, 20556683211002448.
  5. [5] X. Qiaolian, M. Qiaoling, and Z. Qing-Xin, Wrist flexibleexoskeleton design based on SMA drive module, Robot, 43(4),2021, 406–413.
  6. [6] S. Park, and C. Park, Suit-type wearable robot powered byshape-memory-alloy-based fabric muscle, Scientific Reports,9(1), 2019, 9157.10
  7. [7] S. Park, U. Kim, and C. Park, A novel fabric muscle based onshape memory alloy springs, Soft Robotics, 7(3), 2020, 321–331.
  8. [8] J. Jeong, I. B. Yasir, J. Han, C. H. Park, S.-K. Bok, and K.-U. Kyung, Design of shape memory alloy-based soft wearablerobot for assisting wrist motion, Applied Sciences 9(19), 2019,4025.
  9. [9] Z. Zhongqiang, Z. Jiao, D. Jianning, S. Zhenling, C. Guanggui,W. Xiaodong, and G. Liqiang, Research status of the soft robotdriving. Robot, 40(5), 2018, 648–659.
  10. [10] H. Yang, Research on design and control of flexible drive modulebased on shape memory alloy spring. University of Science andTechnology of China, Hefei, 2019.
  11. [11] M. Soubeyrand, B. Assabah, M. B´egin, E. Laemmel, A. DosSantos, and M. Cr´ez´e, Pronation and supination of the hand:Anatomy and biomechanics, Hand Surgery & Rehabilitation,36(1), 2017, 2–11.
  12. [12] A. Cuppone, V. Squeri, M. Semprini, and J. Konczak, Inproprioceptive assessment of the wrist joint across bothjoint degrees of freedom, in Proceeding IEEE InternationalConference on Rehabilitation Robotics (ICORR), 2015; pp894–898.
  13. [13] S. Pomianowski, O’Driscoll, S. Driscoll, P. Neale, M. Park, B.Morrey, K. An, The effect of forearm rotation on laxity andstability of the elbow, Clinical Biomechanics (Bristol, Avon),16(5), 2001, 401–417.
  14. [14] R. A. Fick, B¨ander, Gelenke und Muskeln: Handbuch derAnatomie und Mechanik der Gelenke unter Ber¨ucksichtigungder bewegenden Muskeln, (Jena:Fischer, 1904).
  15. [15] B. D. M. Chaparro-Rico, D. Cafolla, M. Ceccarelli, and E.Castillo-Castaneda, NURSE-2 doF device for arm motionguidance: Kinematic, dynamic, and FEM analysis, AppliedSciences, 10(6), 2020, 2139.
  16. [16] A. Ahmed, Estimation of sex from the upper limb measurementsof sudanese adults, Journal of Forensic and Legal Medicine,20(8), 2013, 1041–1047.
  17. [17] G. Meng, Z. Hongcan, and Y. Peijian, Comparison of clinicalphenotypes of essential tremor at different age of onset. ChineseJournal of Neuroimmunology and Neurology, 28(2), 2021,125–130.
  18. [18] Z. Zhang, B. Chu, Y. Liu, and D. H. Owens, FES basedwrist tremor suppression using multi-periodic repetitive control,IFAC-PapersOnLine, 53(2), 2020, 10135–10140.
  19. [19] M. Follador, M. Cianchetti, A. Arienti, and C. Laschi, Ageneral method for the design and fabrication of shape memoryalloy active spring actuators, Smart Materials and Structures,21(11), 2012, 115029.
  20. [20] J. Van Beesel, J. R. Hutchinson, J.J . Hublin, andS. Melillo, Comparison of the arm-lowering performancebetween Gorilla and Homo through musculoskeletal modeling.American Journal of Biological Anthropology, 178(3), 2022,399–416.
  21. [21] W. Ondo, V. Hashem, P.A. LeWitt, R. Pahwa, L. Shih, D.Tarsy, T. Zesiewicz, and R. Elble, Comparison of the fahn-Tolosa-Marin clinical rating scale and the essential tremorrating assessment scale, Movement Disorders Clinical Practice,5(1), 2018, 60–65.
  22. [22] M. Wu and X. Shen, Design and preliminary testing ofa self-contained knee prosthesis with pneumatic actuation,International Journal of Robotics and Automation, 32(2), 2017.
  23. [23] A. Bayram and A. S. Duru, Design and control of arehabilitation robot manipulator for head–neck orthopaedicdisorders, International Journal of Robotics and Automation,37(6), 2022, 486–497.

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