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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Delay-dependent stability analysis for discrete-time singular Markovian jump systems with time-varying delay
TL;DR: This article considers the problem of delay-dependent stability analysis for a class of discrete-time singular systems with Markovian jump and time-varying delay and proposesdelay-dependent criteria to ensure the underlying system to be regular, causal and stochastically stable.
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New delay-dependent stability criteria for recurrent neural networks with time-varying delays
TL;DR: In this article, a new improved delay-dependent stability criterion expressed in terms of linear matrix inequalities is derived by constructing a dedicated Lyapunov-Krasovskii functional via utilizing Wirtinger inequality and convex combination approach.
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Soil total nitrogen sources on dammed farmland under the condition of ecological construction in a small watershed on the Loess Plateau, China
Guoce Xu,Shengdong Cheng,Peng Li,Zhanbin Li,Haidong Gao,Kunxia Yu,Kexin Lu,Peng Shi,Yuting Cheng,Binhua Zhao +9 more
TL;DR: In this article, the authors used the probability density function of the Weibull distribution to analyze the nitrogen sources in dammed farmland, and the results indicated the mean soil total nitrogen (STN) concentrations at soil depths of 0-20, 20-40 and 40-60 cm in the watershed were 0.45, 0.32 and 0.29, respectively.
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Distributed Fault Estimation Observer Design With Adjustable Parameters for a Class of Nonlinear Interconnected Systems
Ke Zhang,Bin Jiang,Peng Shi +2 more
TL;DR: The presented fault estimator consists of proportional and integral terms to improve the accuracy of fault estimation and achieves a lower performance level in the aspect of quantitative analysis compared with existing fault estimation approaches.
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Robust orbital transfer for low earth orbit spacecraft with small-thrust
Xuebo Yang,Huijun Gao,Peng Shi +2 more
TL;DR: A new Lyapunov approach is introduced, and the controller design problem is cast into a convex optimization problem subjects to linear matrix inequality (LMI) constraints, and with the obtained controller, the orbit transfer process can be accomplished with small thrust and the control cost has an upper bound simultaneously.