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Design and Development of Active Physiotherabot for Stroke Patients

Vimalkumar A. Parmar1 , Kartik D. Kothari2

Section:Review Paper, Product Type: Journal Paper
Volume-7 , Issue-1 , Page no. 404-408, Jan-2019

CrossRef-DOI:   https://doi.org/10.26438/ijcse/v7i1.404408

Online published on Jan 31, 2019

Copyright © Vimalkumar A. Parmar, Kartik D. Kothari . This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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IEEE Style Citation: Vimalkumar A. Parmar, Kartik D. Kothari, “Design and Development of Active Physiotherabot for Stroke Patients,” International Journal of Computer Sciences and Engineering, Vol.7, Issue.1, pp.404-408, 2019.

MLA Style Citation: Vimalkumar A. Parmar, Kartik D. Kothari "Design and Development of Active Physiotherabot for Stroke Patients." International Journal of Computer Sciences and Engineering 7.1 (2019): 404-408.

APA Style Citation: Vimalkumar A. Parmar, Kartik D. Kothari, (2019). Design and Development of Active Physiotherabot for Stroke Patients. International Journal of Computer Sciences and Engineering, 7(1), 404-408.

BibTex Style Citation:
@article{Parmar_2019,
author = {Vimalkumar A. Parmar, Kartik D. Kothari},
title = {Design and Development of Active Physiotherabot for Stroke Patients},
journal = {International Journal of Computer Sciences and Engineering},
issue_date = {1 2019},
volume = {7},
Issue = {1},
month = {1},
year = {2019},
issn = {2347-2693},
pages = {404-408},
url = {https://www.ijcseonline.org/full_paper_view.php?paper_id=3519},
doi = {https://doi.org/10.26438/ijcse/v7i1.404408}
publisher = {IJCSE, Indore, INDIA},
}

RIS Style Citation:
TY - JOUR
DO = {https://doi.org/10.26438/ijcse/v7i1.404408}
UR - https://www.ijcseonline.org/full_paper_view.php?paper_id=3519
TI - Design and Development of Active Physiotherabot for Stroke Patients
T2 - International Journal of Computer Sciences and Engineering
AU - Vimalkumar A. Parmar, Kartik D. Kothari
PY - 2019
DA - 2019/01/31
PB - IJCSE, Indore, INDIA
SP - 404-408
IS - 1
VL - 7
SN - 2347-2693
ER -

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Abstract

The paper describes about the research work carried out for design and development of a robotic glove that will be able to find out the finger movement in a mathematical form. Further, this data can be used for treating semi-paralysed patients. In Stroke patients where body parts movement cannot take place entirely or partially can take the benefit of proposed system. Flex Sensors have been used for each finger in order to design the proposed system. Arduino-UNO software is being used for the coding of sensors. Collected mathematical data can be stored for exercise selection criteria or to develop a passive exercise model.

Key-Words / Index Term

Physiotherabot, Flex sensors, Arduino IDE

References

[1] Laver K, George S, Ratcliffe J, Crotty M. Virtual reality stroke rehabilitation— hype or hope? Australian Occupational Therapy Journal 2011;58: 215–9.
[2] P. Joshi, S. Gupta, "A Innovative Approch for Robotic Hand for Object Tracking and Grasping Methods", International Journal of Scientific Research in Computer Science and Engineering, Vol.4, Issue.2, pp.10-14, 2016
[3] Donnan GA, Fisher M, Macleod M, Davis SM. Stroke. The Lancet 2008; 371:1612–23.
[4] M. Bergamasco, B. Allotta, L. Bosio, L. Ferretti, G. Parrini, G. Prisco, F. Salsedo, and G. Sartini, “An arm exoskeleton system for teleoperation and virtual environments applications,” in Proc. IEEE Int. Conf. Robot. Autom., vol. 2, 1994, pp. 1449–1454.
[5] R. Zade, N. Khadgi, M. Kasbe, T. Mujawar, "Online Garbage Monitoring System Using Arduino and LabVIEW", International Journal of Scientific Research in Network Security and Communication, Vol.6, Issue.6, pp.5-9, 2018
[6] M. Mihelj, T. Nef, and R. Reiner, “ARMin II - 7 DoF rehabilitation robot: mechanics and kinematics,” in Proc. IEEE Int. Conf. on Robotics and Automat., Roma, Italy, 2007, pp. 4120-4125.
[7] Y. Yong, W. Lan, T. Jie, and Z. Lixun, “Arm Rehabilitation Robot Impedance Control and Experimentation,” in Proc. IEEE Int. Conf. on Robotics and Biomimetics, 2006, pp. 914-918.
[8] https://learn.sparkfun.com/tutorials/flex-sensor-hookup-guide/all
[9] https://www.youtube.com/watch?v=Gc1wVdbVI0E
[10] https://learn.sparkfun.com/tutorials/pcb-basics/all
[11] https://store.arduino.cc/usa/arduino-starter-kit
[12] https://www.arduino.cc/en/main/software
[13] http://www.stroke.org.uk/information/index.html], 07 2007.
[14] https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4688009/
[15] https://synergypublishers.com/journal-of-rehabilitation-robotics/
[16]https://www.choosebetterwindows.com/windows/advancement-in-glass-technology/