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\(L_1\) Adaptive Control of a Lower Limb Exoskeleton Dedicated to Kids’ Rehabilitation

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New Trends in Robot Control

Part of the book series: Studies in Systems, Decision and Control ((SSDC,volume 270))

Abstract

In this chapter, four adaptive controllers have been proposed to control a 2-DOF exoskeleton dedicated to kids’ rehabilitation. These control laws are implemented at the hip and the knee joints. In fact, tracking the gait scheme with an intense and a precise work may allow children to increase their brain plasticity. Through the proposed study, it is shown that the augmented \(L_1\) adaptive controller is robust regards to parametric variations. Besides, to validate this controller, different scenarios and simulations were carried out to prove its effectiveness.

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References

  1. Adams, E.: Power-multiplying exoskeletons are slimming down for use on the battlefield (2017). https://www.popsci.com/army-exoskeletons-lockheed-martin [online]

  2. Duschau-Wicke, A., Brunsch, T., Lünenburger, L., Riener, R.: Adaptive support for patient-cooperative gait rehabilitation with the lokomat. In: IEEE International Conference on Intelligent Robots and Systems, pp. 2357–2361 (2007)

    Google Scholar 

  3. Zeilig, G., Weingarden, H., Obuchov, A., Bloch, A., Gaides, M., Reuveny, R., Ben-Dov, I.: Lokomat walking results in increased metabolic markers in individuals with high spinal cord injury. In: International Conference on Virtual Rehabilitation, ICVR, pp. 119–120 (2015)

    Google Scholar 

  4. Refai, H., Mohammed, S., Daachi, B., Amirat, Y.: Adaptive control of a human-driven knee joint orthosis. In: IEEE International Conference on Robotics and Automation, pp. 247.86–2491 (2012)

    Google Scholar 

  5. Slotine, J.-J.E., Li, W.: On the adaptive control of robot manipulators. Int. J. Robot. Res., 49–59 (1987)

    Google Scholar 

  6. Hovakimyan, N., Cao, C.: L1 adaptive control theory guaranted robustness with fast adaptation. Adv. Des. Control (2010)

    Google Scholar 

  7. Refai, H., Ben Abdessalem, M.S., Chemori, A., Mohammed, S., Amirat, Y.: Augmented L1 adaptive control of an actuated knee joint exoskeleton: from design to real-time experiments. In: IEEE International Conference on Robotics and Automation, ICRA, pp. 5707.8–5714 (2016)

    Google Scholar 

  8. Deep, A., Jaswal, R.:Role of management and virtual space for the rehabilitation of children affected with cerebral palsy: a review. In: IEEE International Conference on Signal Processing, Computing and Control, pp. 293–299 (2017)

    Google Scholar 

  9. Tucker, M., Olivier, J., Pagel, A., Bleuler, H., Bouri, M., Lambercy, O., Millán, J., Riener, R., Vallery, H., Gassert, R.: Control strategies for active lower extremity prosthetics and orthotics: a review. J. Neuroeng. Rehabil., 1–12 (2015)

    Google Scholar 

  10. Ghezal, M., Guiatni, M., Boussioud, I., Renane, C.S.: Design and robust control of a 2 DOFs lower limb exoskeleton. In: International Conference on Communications and Electrical Engineering (2018)

    Google Scholar 

  11. Bennehar, M., Chemori, A., Pierrot, F.: L1 adaptive control of parallel kinematic manipulators: design and real-time experiments. In: IEEE International Conference on Robotics and Automation, pp. 157.87–1592 (2015)

    Google Scholar 

  12. Hesse, S., Schmidt, H., Werner, C., Bardeleben, A.: Upper and lower extremity robotic devices for rehabilitation and for studying motor control. Curr. Opin. Neurol., 705–710 (2003)

    Google Scholar 

  13. Jamshidi, N., Rostami, M., Najarian, S., Menhaj, M.B., Saadatnia, M., Firooz, S.: Modelling of human walking to optimise the function of ankle-foot orthosis in Guillan-Barré patients with drop foot. Singap. Med. J. 50(4), 412–737 (2009)

    Google Scholar 

  14. Rupal, B., Rafique, S., Singla, A., Singla, E., Isaksson, M., Virk, G.: Lower-limb exoskeletons: research trends and regulatory guidelines in medical and non-medical applications. Int. J. Adv. Robot. Syst., 1–27 (2017)

    Google Scholar 

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Acknowledgements

The present work is supported by (i) the “Association de Sauvegarde des Handicapés Moteurs - Sfax” (ASHMS), the (ii) Clinical Inverstigation Center (CIC) of the Hospitalo−University Center of Sfax (CHU) Tunisia, (iii) the Laboratory “Control & Energy Managements” (CEMLab) of the “National School of Engineering of Sfax”, University of Sfax, Tunisia, and (iv) the Digital Research Center of Sfax, Tunisia (CRNS).

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Authors and Affiliations

  1. Laboratory of Control & Energy Management, ENIS, Digital Research Center of Sfax, University of Sfax, Sfax, Tunisia

    Boutheina Maalej & Nabil Derbel

  2. Clinical Investigation Center, University of Gabes, Sfax, Tunisia

    Boutheina Maalej

  3. LIRMM, University of Montpellier, CNRS, Montpellier, France

    Ahmed Chemori

Authors
  1. Boutheina Maalej
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  2. Ahmed Chemori
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  3. Nabil Derbel
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Corresponding author

Correspondence to Boutheina Maalej .

Editor information

Editors and Affiliations

  1. Department of Electrical and Computer Engineering, Sultan Qaboos University, Al Khoudh, Oman

    Jawhar Ghommam

  2. National School of Engineers of Sfax, University of Sfax, Sfax, Tunisia

    Nabil Derbel

  3. Department of Engineering Design and Mathematics, University of the West of England, Bristol, UK

    Quanmin Zhu

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Maalej, B., Chemori, A., Derbel, N. (2020). \(L_1\) Adaptive Control of a Lower Limb Exoskeleton Dedicated to Kids’ Rehabilitation. In: Ghommam, J., Derbel, N., Zhu, Q. (eds) New Trends in Robot Control. Studies in Systems, Decision and Control, vol 270. Springer, Singapore. https://doi.org/10.1007/978-981-15-1819-5_6

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