Abstract
This paper presents a robust motion control of a sitting-type lower limb rehabilitation robot (LLRR) in its operational-space. The mathematical background of the proposed robot is discussed and its motion control design in the task-space based on a double-loop control approach is derived herein along with its closed-loop system stability analysis. The motion tracking performance analysis of the proposed scheme is demonstrated using computer based numerical simulations. For numerical simulations and to validate the effectiveness of the motion control strategy, the clinically obtained test gait data is used for the desired motion trajectory of the lower limb rehabilitation robot.
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References
Samorodskaya, I.V., Zayratyants, O.V., Perkhov, V.I., Andreev, E.M., Vaisman, D.Sh.: Trends in stroke mortality rates in Russia and the USA over a 15-year period. Arch. Pathol. 80(2), 30–37 (2018)
Early rehabilitation of patients after acute ischemic stroke. Science and healthcare, 2 (2014)
Vashisht, N., Puliyel, J.: Polio programme: let us declare victory and move on. Indian J. Med. Ethics 9(2), 114–117 (2012)
Truelsen, T., Bonita, R.: The worldwide burden of stroke: current status and future projections. In: Handbook of Clinical Neurology, 3rd edn, vol. 92, pp. 327–336 (2009)
Loeb, G.E.: Neural control of locomotion. BioSciences 39, 800–804 (1989)
Stein, P.S.G., Stuart, D.G., Grillner, S., Selverston, A.I.: Neurons, Networks, and Motor Behavior. MIT Press, Cambridge (1999)
Huang, G., et al.: Design and feasibility study of a leg-exoskeleton assistive wheel-chair robot with tests on gluteus medius muscles. Sensors 19(3), 548 (2019)
Cafolla, D., Russo, M., Carbone, G.: CUBE, a cable-driven device for limb rehabilitation. J. Bionic Eng. 16, 492–502 (2019)
Merlet, J., et al.: Determination of 6D workspaces of Gough-type parallel manipulator and comparison between different geometries. Int. J. Robot. Res. 18(9), 902–916 (1999)
Evtushenko, Y.: Numerical methods for finding global extreme (case of a non-uniform mesh). U.S.S.R. Comput. Maths. Math. Phys. 11, 1390–1403 (1971)
Evtushenko, Y., Posypkin, M., Rybak, L., Turkin, A.: Approximating a solution set of non-linear inequalities. J. Global Optim. 7, 129–145 (2018)
Evtushenko, Y., Posypkin, M., Turkin, A., Rybak, L.: The non-uniform covering approach to manipulator workspace assessment. In: Proceedings of the 2017 IEEE Russia Section Young Researchers in Electrical and Electronic Engineering Conference, El-ConRus 2017, pp. 386–389 (2017)
Rybak, L.A., Posypkin, M.A., Turkin, A.V.: Method for approximating the workspace of the parallel robot. Int. J. Pharmacy Technol. 8(4), 25045–25055 (2016)
Joumah, A.A., Albitar, C.: Design optimization of 6-RUS parallel manipulator using hybrid algorithm. Int. J. Inf. Technol. Comput. Sci. (IJITCS) 10(2), 83–95 (2018)
Mohammed, R.H., Elnaghi, B.E., Bendary, F.A., Elserfi, K.: Trajectory tracking control and robustness analysis of a robotic manipulator using advanced control techniques. Int. J. Eng. Manuf. (IJEM) 8(6), 42–54 (2018)
Sahraoui, M., Khelfi, M.F., Salem, M.: Sequential adaptive fuzzy inference system based intelligent control of robot manipulators. Int. J. Intell. Syst. Appl. (IJISA) 6(11), 49–56 (2014)
Colgate, J.E., Hogan, N.: Robust control of dynamically interacting systems. Int. J. Control 48(1), 65–88 (1988)
Stansfield, B.W., Hillman, S.J., Hazlewood, M.E., Robb, J.E.: Regression analysis of gait parameters with speed in normal children walking at self-selected speeds. Gait Posture 23, 288–294 (2006)
Jaulin, L.: Applied Interval Analysis: With Examples in Parameter and State Estimation, Robust Control and Robotics. Springer, New York (2001)
Moore, R.E.: Interval Analysis. Prentice Hall, Englewood Cliffs (1966)
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This work was supported by the Russian Science Foundation, the agreement number 19-19-00692.
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Mohan, S., Mohanta, J.K., Behera, L., Rybak, L., Malyshev, D. (2020). Robust Operational-Space Motion Control of a Sitting-Type Lower Limb Rehabilitation Robot. In: Hu, Z., Petoukhov, S., He, M. (eds) Advances in Artificial Systems for Medicine and Education III. AIMEE 2019. Advances in Intelligent Systems and Computing, vol 1126. Springer, Cham. https://doi.org/10.1007/978-3-030-39162-1_15
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DOI: https://doi.org/10.1007/978-3-030-39162-1_15
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