M
Min Wu
Researcher at China University of Geosciences (Wuhan)
Publications - 912
Citations - 24783
Min Wu is an academic researcher from China University of Geosciences (Wuhan). The author has contributed to research in topics: Control theory & Computer science. The author has an hindex of 63, co-authored 779 publications receiving 18988 citations. Previous affiliations of Min Wu include University of Liverpool & Tokyo Institute of Technology.
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Technical Communique: Delay-dependent criteria for robust stability of time-varying delay systems
TL;DR: Some new delay-dependent stability criteria are devised by taking the relationship between the terms in the Leibniz-Newton formula into account, which are less conservative than existing ones.
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Technical communique: Delay-range-dependent stability for systems with time-varying delay
TL;DR: The present results may improve the existing ones due to a method to estimate the upper bound of the derivative of Lyapunov functional without ignoring some useful terms and the introduction of additional terms into the proposed Lyap unov functional, which take into account the range of delay.
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Delay-dependent robust stability criteria for uncertain neutral systems with mixed delays
TL;DR: A new method based on linear matrix inequalities is presented that makes it easy to calculate both the upper stability bounds on the delays and the free weighting matrices, and is less conservative than previous methods.
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Parameter-dependent Lyapunov functional for stability of time-delay systems with polytopic-type uncertainties
TL;DR: A new method of dealing with a time-delay system without uncertainties is devised, in which the derivative terms of the state are retained and some free weighting matrices are used to express the relationships among the system variables.
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Free-Matrix-Based Integral Inequality for Stability Analysis of Systems With Time-Varying Delay
TL;DR: A new integral inequality is presented, called a free-matrix-based integral inequality, that further reduces the conservativeness in those methods used to derive delay-dependent criteria for the stability analysis of time-varying-delay systems.