H
Hao Shen
Researcher at Anhui University of Technology
Publications - 296
Citations - 12245
Hao Shen is an academic researcher from Anhui University of Technology. The author has contributed to research in topics: Computer science & Control theory. The author has an hindex of 54, co-authored 225 publications receiving 8681 citations. Previous affiliations of Hao Shen include Nanjing University of Science and Technology & Yeungnam University.
Papers
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Fault-tolerant control for fuzzy switched singular systems with persistent dwell-time subject to actuator fault
TL;DR: A switching signal complying with persistent dwell-time switching regularity is introduced for the first time into the analysis of nonlinear switched singular systems subject to the actuator fault.
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Fuzzy dissipative control for nonlinear Markovian jump systems via retarded feedback
TL;DR: This paper aims to design retarded feedback controllers such that the resulting closed-loop system is stochastically stable and strictly ( Q, S, R ) - θ - dissipative .
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Hybrid Event-Based Leader-Following Consensus of Nonlinear Multiagent Systems With Semi-Markov Jump Parameters
TL;DR: In this article, the leader-following consensus issue for continuous-time multiagent systems with semi-Markov jump parameters is systematically addressed, where a hybrid event-triggered strategy associated with an improved threshold function is employed for economizing the network bandwidth resources.
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Non-fragile finite-time l 2 - l ∞ state estimation for discrete-time Markov jump neural networks with unreliable communication links
TL;DR: The focus is on the design of non-fragile state estimator such that the augmented estimation error system is mean-square stochastically finite-time stable with a prescribed level of l 2 - l ∞ performance.
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Design of a fault-tolerant output-feedback controller for thickness control in cold rolling mills
TL;DR: By constructing a desired controller based on the measured output, the stabilization and the dissipativity of the considered system are realized and the fault-tolerant output feedback controller for the hydraulic automation gauge control system of cold rolling mills is designed.