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International Journal of Control Volume 92, 2019 - Issue 9
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Original Articles

Robust nonlinear control schemes for finite-time tracking objective of a 5-DOF robotic exoskeleton

Ali AbooeeDepartment of Electrical Engineering, Yazd University, Yazd, Iran
,
Mohammad Mehdi ArefiDepartment of Power and Control Engineering, School of Electrical and Computer Engineering, Shiraz University, Shiraz, IranCorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0003-3986-8205
ORCID Icon,
Fatemeh SedghiDepartment of Electrical Engineering, Yazd University, Yazd, Iran
&
Vahid AbootalebiDepartment of Electrical Engineering, Yazd University, Yazd, Iran
Pages 2178-2193 | Received 04 Jul 2017, Accepted 16 Jan 2018, Published online: 09 Feb 2018

References

  • Bayramoglu, H. , & Komurcugil, H. (2013). Nonsingular decoupled terminal sliding-mode control for a class of fourth-order nonlinear systems. Communications in Nonlinear Science and Numerical Simulation , 18 (9), 2527–2539.
  • Bhat, S. P. , & Bernstein, D. S. (1998). Continuous finite-time stabilization of the translational and rotational double integrators. IEEE Transactions on Automatic Control , 43 (5), 678–682.
  • Bhat, S. P. , & Bernstein, D. S. (2000). Finite-time stability of continuous autonomous systems. SIAM Journal on Control and Optimization , 38 (3), 751–766.
  • Bhat, S. P. , & Bernstein, D. S. (2005). Geometric homogeneity with applications to finite-time stability. Mathematics of Control, Signals and Systems , 17 (2), 101–127.
  • Cao, J. , Xie, S. Q. , & Das, R. (2017). MIMO sliding mode controller for gait exoskeleton driven by pneumatic muscles. IEEE Transactions on Control Systems Technology , PP (99), 1–8.
  • Cempini, M. , Cortese, M. , & Vitiello, N. (2015). A powered finger–thumb wearable hand exoskeleton with self-aligning joint axes. IEEE/ASME Transactions on Mechatronics , 20 (2), 705–716.
  • Chen, Z. , Li, Z. , & Chen, C. L. P. (2017). Disturbance observer-based fuzzy control of uncertain MIMO mechanical systems with input nonlinearities and its application to robotic exoskeleton. IEEE Transactions on Cybernetics , 47 (4), 984–994.
  • Chen, S. , Yao, B. , Zhu, X. , Chen, Z. , Wang, Q. , Zhu, S. , & Song, Y. (2015). Adaptive robust backstepping force control of 1-DOF joint exoskeleton for human performance augmentation. IFAC-Papers OnLine , 48 (19), 142–147.
  • Chiu, C. S. (2012). Derivative and integral terminal sliding mode control for a class of MIMO nonlinear systems. Automatica , 48 (2), 316–326.
  • Conti, R. , Meli, E. , & Ridolfi, A. (2016). A novel kinematic architecture for portable hand exoskeletons. Mechatronics , 35 (1), 192–207.
  • Defoort, M. , Polyakov, A. , Demesure, G. , Djemai, M. , & Veluvolu, K. (2015). Leader-follower fixed-time consensus for multi-agent systems with unknown non-linear inherent dynamics. IET Control Theory and Applications , 9 (14), 2165–2170.
  • Fei, J. , & Yan, W. (2014). Adaptive control of MEMS gyroscope using global fast terminal sliding mode control and fuzzy-neural-network. Nonlinear Dynamics , 78 (1), 103–116.
  • Feng, Y. , Yu, X. , & Han, F. (2013). On nonsingular terminal sliding-mode control of nonlinear systems. Automatica , 49 (6), 1715–1722.
  • Fu, J. , Ma, R. , & Chai, T. (2015). Global finite-time stabilization of a class of switched nonlinear systems with the powers of positive odd rational numbers. Automatica , 54 (1), 360–373.
  • Galicki, M. (2016). Finite-time trajectory tracking control in a task space of robotic manipulators. Automatica , 67 (1), 165–170.
  • Ghasemi, M. , Nersesov, S. G. , & Clayton, G. (2014). Finite-time tracking using sliding mode control. Journal of the Franklin Institute , 351 (5), 2966–2990.
  • Gopura, R. A. R. C. , Bandara, D. S. V. , Kiguchi, K. , & Mann, G. K. I. (2016). Developments in hardware systems of active upper-limb exoskeleton robots: A review. Robotics and Autonomous Systems , 75 (Part B), 203–220.
  • Hardly, G. H. , Littlewood, J. E. , & Polya, G. (1952). Inequalities . Cambridge: Cambridge University Press.
  • Hassani, W. , Mohammed, S. , Rifaï, H. , & Amirat, Y. (2014). Powered orthosis for lower limb movements assistance and rehabilitation. Control Engineering Practice , 26 (1), 245–253.
  • Hou, M. , Zhang, Z. , Deng, Z. , & Duan, G. (2016). Global robust finite- time stabilization of unknown pure-feedback systems with input dead-zone non-linearity. IET Control Theory and Applications , 10 (2), 234–243.
  • Kang, H. B. , & Wang, J. H. (2013). Adaptive control of 5 DOF upper-limb exoskeleton robot with improved safety. ISA Transactions , 52 (6), 844–852.
  • Kang, H. B. , & Wang, J. H. (2015). Adaptive robust control of 5 DOF upper-limb exoskeleton robot. International Journal of Control Automation and Systems , 13 (3), 733–741.
  • Kirsch, N. , Alibeji, N. , & Sharma, N. (2017). Nonlinear model predictive control of functional electrical stimulation. Control Engineering Practice , 58 (1), 319–331.
  • Lee, H. D. , Lee, B. K. , Kim, W. S. , Han, J. S. , Shin, K. S. , & Han, C. S. (2014). Human–robot cooperation control based on a dynamic model of an upper limb exoskeleton for human power amplification. Mechatronics , 24 (2), 168–176.
  • Levant, A. , & Michael, A. (2009). Adjustment of high-order sliding mode controllers. International Journal of Robust and Nonlinear Control , 19 (15), 1657–1672.
  • Li, Z. , Huang, Z. , He, W. , & Su, C. Y. (2017). Adaptive impedance control for an upper limb robotic exoskeleton using biological signals. IEEE Transactions on Industrial Electronics , 64 (2), 1664–1674.
  • Li, Z. , Su, C. Y. , Li, G. , & Su, H. (2015). Fuzzy approximation-based adaptive backstepping control of an exoskeleton for human upper limbs. IEEE Transactions on Fuzzy Systems , 23 (3), 555–566.
  • Li, Z. , Su, C. Y. , Wang, L. , Chen, Z. , & Chai, T. (2015). Nonlinear disturbance observer-based control design for a robotic exoskeleton incorporating fuzzy approximation. IEEE Transactions on Industrial Electronics , 62 (9), 5763–5775.
  • Liu, H. , Zhang, T. , & Tian, X. (2016). Continuous output-feedback finite-time control for a class of second-order nonlinear systems with disturbances. International Journal of Robust and Nonlinear Control , 26 (2), 218–234.
  • Madani, T. , Daachi, B. , & Djouani, K. (2016). Non-singular terminal sliding mode controller: Application to an actuated exoskeleton. Mechatronics , 33 (1), 136–145.
  • Madani, T. , Daachi, B. , & Djouani, K. (2017). Modular-controller-design-based fast terminal sliding mode for articulated exoskeleton systems. IEEE Transactions on Control Systems Technology , 25 (3), 1133–1140.
  • Mefoued, S. (2015). A second order sliding mode control and a neural network to drive a knee joint actuated orthosis. Neurocomputing , 155 (1), 71–79.
  • Mohammed, S. , Huo, W. , Huang, J. , Rifaï, H. , & Amirat, Y. (2016). Nonlinear disturbance observer based sliding mode control of a human-driven knee joint orthosis. Robotics and Autonomous Systems , 75 (Part. A), 41–49.
  • Mondal, S. , & Mahanta, C. (2014). Adaptive second order terminal sliding mode controller for robotic manipulators. Journal of the Franklin Institute , 351 (4), 2356–2377.
  • Mushage, B. O. , Chedjou, J. C. , & Kyamakya, K. (2017). Fuzzy neural network and observer-based fault-tolerant adaptive nonlinear control of uncertain 5-DOF upper-limb exoskeleton robot for passive rehabilitation. Nonlinear Dynamics , 87 (3), 2021–2037.
  • Parsegov, S. E. , Polyakov, A. E. , & Shcherbakov, P. S. (2013). Fixed-time consensus algorithm for multi-agent systems with integrator dynamics. IFAC Proceedings Volumes , 46 (27), 110–115.
  • Polyakov, A. , Efimov, D. , & Perruquetti, W. (2015). Finite-time and fixed-time stabilization: Implicit Lyapunov function approach. Automatica , 51 (1), 332–340.
  • Polyakov, A. , & Poznyak, A. (2009). Lyapunov function design for finite-time convergence analysis: Twisting” controller for second-order sliding mode realization. Automatica , 45 (2), 444–448.
  • Rifaï, H. , Mohammed, S. , Djouani, K. , & Amirat, Y. (2017). Toward lower limbs functional rehabilitation through a knee-joint exoskeleton. IEEE Transactions on Control Systems Technology , 25 (2), 712–719.
  • Rifaï, H. , Mohammed, S. , Hassani, W. , & Amirat, Y. (2013). Nested saturation based control of an actuated knee joint orthosis. Mechatronics , 23 (8), 1141–1149.
  • Sharifi, M. , Behzadipour, S. , & Vossoughi, G. (2014). Nonlinear model reference adaptive impedance control for human–robot interactions. Control Engineering Practice , 32 (1), 9–27.
  • Su, Y. , & Zheng, C. (2015). Robust finite-time output feedback control of perturbed double integrator. Automatica , 60 (1), 86–91.
  • Sun, Z. Y. , Xue, L. R. , & Zhang, K. (2015). A new approach to finite-time adaptive stabilization of high-order uncertain nonlinear system. Automatica , 58 (1), 60–66.
  • Villeda, L. I. L. , Frisoli, A. , Bergamasco, M. , & Vega, V. P. (2009). Robust tracking of the light–exoskeleton for arm rehabilitation tasks. IFAC Proceedings Volumes , 42 (16), 663–668.
  • Wang, X. , Li, X. , Wang, J. , Fang, X. , & Zhu, X. (2016). Data-driven model-free adaptive sliding mode control for the multi degree-of-freedom robotic exoskeleton. Information Sciences , 327 (1), 246–257.
  • Wu, J. , Gao, J. , Song, R. , Li, R. , Li, Y. , & Jiang, L. (2016). The design and control of a 3 DOF lower limb rehabilitation robot. Mechatronics , 33 (1), 13–22.
  • Yan, Z. , Yu, H. , Zhang, W. , Li, B. , & Zhou, J. (2015). Globally finite-time stable tracking control of underactuated UUVs. Ocean Engineering , 107 (1), 132–146.
  • Yang, J. , Li, S. , Su, J. , & Yu, X. (2013). Continuous nonsingular terminal sliding mode control for systems with mismatched disturbances. Automatica , 49 (7), 2287–2291.
  • Yu, S. , & Long, X. (2015). Finite-time consensus for second-order multi-agent systems with disturbances by integral sliding mode. Automatica , 54 (1), 158–165.
  • Zhang, X. H. , Zhang, K. , & Xie, X. J. (2016). Finite-time output feedback stabilization of nonlinear high-order feed forward systems. International Journal of Robust and Nonlinear Control , 26 (8), 1794–1814.
  • Zhao, Y. , Duan, Z. , Wen, G. , & Chen, G. (2016). Distributed finite-time tracking of multiple non-identical second-order nonlinear systems with settling time estimation. Automatica , 64 (1), 86–93.
  • Zhao, D. , Li, S. , & Gao, F. (2009). A new terminal sliding mode control for robotic manipulators. International Journal of Control , 82 (10), 1804–1813.
  • Zou, A. M. , de Ruiter, A. H. J. , & Kumar, K. D. (2016). Distributed finite-time velocity-free attitude coordination control for spacecraft formations. Automatica , 67 (1), 46–53.
  • Zuo, Z. (2015). Nonsingular fixed-time consensus tracking for second-order multi-agent networks. Automatica , 54 (1), 305–309.
  • Zuo, Z. , & Tie, L. (2016). A new class of finite-time nonlinear consensus protocols for multi-agent systems. International Journal of Control , 87 (2), 363–370.

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