Tensor Product Model Transformation Based Adaptive Integral-Sliding Mode Controller: Equivalent Control Method
Keyword(s):
This paper proposes new methodologies for the design of adaptive integral-sliding mode control. A tensor product model transformation based adaptive integral-sliding mode control law with respect to uncertainties and perturbations is studied, while upper bounds on the perturbations and uncertainties are assumed to be unknown. The advantage of proposed controllers consists in having a dynamical adaptive control gain to establish a sliding mode right at the beginning of the process. Gain dynamics ensure a reasonable adaptive gain with respect to the uncertainties. Finally, efficacy of the proposed controller is verified by simulations on an uncertain nonlinear system model.
2019 ◽
Vol 31
(4)
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pp. 314
2014 ◽
Vol 47
(8)
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pp. 1791-1803
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2019 ◽
Vol 17
(12.2)
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pp. 42
2016 ◽
Vol 39
(6)
◽
pp. 872-882
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2019 ◽
Vol 31
(4)
◽
pp. 314
2021 ◽
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