Trajectory Generation for Hip Rehabilitation Exoskeleton Using Trajectory

Authors

  • M.R. Sapiee Universiti Teknikal Malaysia Melaka, Universiti Putra Malaysia
  • M.H. Marhaban Universiti Putra Malaysia
  • M.F. Miskon Universiti Teknikal Malaysia Melaka
  • A.J. Ishak Universiti Putra Malaysia

Abstract

A walking rehabilitation exoskeleton robot is used for patient having walking difficulty to undergo walking therapy by wearing it on his lower body. If the rehabilitation is done directly by using  predefined normal gait, the patient can feel discomfort and may lead to painful therapy. This can also endangered the patient limb under therapy. Due to that reason, the patient will be discouraged and unmotivated to proceed with the therapy. This paper presents the hip trajectory generation by utilizing the patient current trajectory that morphs into the target trajectory by generating a sequence of gradually changing hip trajectories.

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Author Biographies

M.R. Sapiee, Universiti Teknikal Malaysia Melaka, Universiti Putra Malaysia

Dept. of Electrical And Electronics Engineering Technology

M.H. Marhaban, Universiti Putra Malaysia

Faculty of Engineering, Prof.

 

 

M.F. Miskon, Universiti Teknikal Malaysia Melaka

Faculty of Electrical Engineering, Assoc. Prof.

A.J. Ishak, Universiti Putra Malaysia

Faculty of Engineering, Sr. Lecturer

References

Jatsun, S., Savin, S., & Yatsun, A. (2018). Motion control algorithm for a lower limb exoskeleton based on iterative LQR and ZMP method for trajectory generation. Mech. Mach. Sci., 48, 305–317.

Perez-Cisneros, M., Cuevas, E., & Zaldivar, D. (2008). Walking control algorithm based on polynomial trajectory generation, Proceedings of the UKACC International Conference on Control 2008, 1–6.

Pei, Y., Kim, Y., Obinata, G., Hase, K., & Stefanov, D. (2011), Trajectory planning of a robot for lower limb rehabilitation, 2011 Annual International Conference of the IEEE Engineering in Medicine and Biology Society, 1259–1263.

Ali, S. A., Annuar, K. A. M., & Miskon, M. F. (2016), Trajectory planning for exoskeleton robot by using cubic and quintic polynomial equation, Int. J. Appl. Eng. Res., 11(13), 7943–7946.

Miskon, M. F. & Yusof, M. (2014), Review of trajectory generation of exoskeleton robots, 2014 IEEE International Symposium on Robotics and Manufacturing Automation (IEEE-ROMA2014), 12–17.

Johnson, E. and Murphey, T. (2007), Automated trajectory morphing for marionettes using trajectory optimization, IEEE Int. Conf. Robot. Autom.

Hauser, J. and Meyer, D. G. (1998), Trajectory morphing for nonlinear systems, Proceedings of the American Control Conference, vol. 4, 2065–2070.

Schwartz, M. H., Rozumalski, A., & Trost, J. P. (2008), The effect of walking speed on the gait of typically developing children, J. Biomech., 41(8), 1639–1650.

Hicks, J. L., Schwartz, M. H., Arnold, A. S., & Delp, S. L. (2008), Crouched postures reduce the capacity of muscles to extend the hip and knee during the single-limb stance phase of gait, J. Biomech., 41(5), 960–967.

Mohammed, M. Q., Miskon, M. F., Bahar, M. B., & Ali, F. (2015), Walking motion trajectory of hip powered orthotic device using quintic polynomial equation, J. Telecommun. Electron. Comput. Eng., 8(7), 151–155.

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Additional Files

Published

2020-04-26

How to Cite

Sapiee, M., Marhaban, M., Miskon, M., & Ishak, A. (2020). Trajectory Generation for Hip Rehabilitation Exoskeleton Using Trajectory. International Journal of Human and Technology Interaction (IJHaTI), 4(1 April), 45–52. Retrieved from https://ijhati.utem.edu.my/ijhati/article/view/5797

Issue

Vol. 4 No. 1 April (2020)

Section

Humanities and Technology

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