P
Peng Shi
Researcher at University of Adelaide
Publications - 1601
Citations - 80441
Peng Shi is an academic researcher from University of Adelaide. The author has contributed to research in topics: Control theory & Nonlinear system. The author has an hindex of 137, co-authored 1371 publications receiving 65195 citations. Previous affiliations of Peng Shi include Harbin Engineering University & Harbin University of Science and Technology.
Papers
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Real-Time Optimal State Estimation of Multi-DOF Industrial Systems Using FIR Filtering
TL;DR: A fast iterative algorithm is developed with a pseudocode that is more robust against uncertainties and model errors owing to the transversal structure and used to estimate state in the 1-DOF torsion system and the 3- DOF helicopter system.
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Passivity and passification of T-S fuzzy descriptor systems with stochastic perturbation and time delay
TL;DR: In this paper, a delay-dependent criterion is presented to ensure that the considered system is regular, impulse-free, asymptotically stable in the mean-square sense and passive in the sense of expectation.
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Sliding Mode Control for Linear Systems with Time-Varying Input and State Delays
TL;DR: This paper deals with a sliding mode control for linear systems with input and state time-varying delays with delay-dependent sufficient conditions given for the existence of sliding manifolds in terms of linear matrix inequalities.
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Disturbance-Observer-Based Terminal Sliding Mode Control for Linear Traction System With Prescribed Performance
TL;DR: A terminal sliding mode control (SMC) strategy based on the nonlinear disturbance observer (NDO) and prescribed performance method is proposed to deal with the speed tracking problem for permanent-magnet linear synchronous traction systems in urban rail transit.
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New results on networked control systems with non-stationary packet dropouts
TL;DR: In this article, an improved observer-based stabilising controller has been designed for networked systems involving both random measurement and actuation delays and subject to non-stationary packet dropouts.