H
Huaicheng Yan
Researcher at East China University of Science and Technology
Publications - 316
Citations - 6933
Huaicheng Yan is an academic researcher from East China University of Science and Technology. The author has contributed to research in topics: Computer science & Control theory (sociology). The author has an hindex of 35, co-authored 166 publications receiving 4128 citations. Previous affiliations of Huaicheng Yan include China University of Geosciences (Wuhan) & East China Jiaotong University.
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Delay-range-dependent robust H∞ control for uncertain systems with interval time-varying delays
TL;DR: A delay-range-dependent criterion for the existence of a memoryless state feedback H" ~ controller that ensures asymptotic stability and a prescribed H"~ performance level of the closed-loop system for all admissible uncertainties is proposed in terms of linear matrix inequality (LMI).
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Stability Analysis for Delayed Neural Networks via Improved Auxiliary Polynomial-Based Functions
TL;DR: A novel stability criterion is derived for DNNs, in which the benefits of the improved inequalities are fully integrated and the information on delay and its derivative is well reflected.
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Event-triggered H∞ control for uncertain networked T–S fuzzy systems with time delay
TL;DR: Some novel criteria for the robust asymptotic stability analysis and control synthesis of the event-triggered networked T–S fuzzy systems are established in terms of matrix inequalities.
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Stability analysis of linear systems with time-varying delay via intermediate polynomial-based functions
TL;DR: Comparisons of computational complexity and stability region on a well known numerical example are provided to validate the advantages of the resulting stability criterion.
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Dynamic Event-Triggered Fault Detection via Zonotopic Residual Evaluation and Its Application to Vehicle Lateral Dynamics
TL;DR: An optimal event-triggered fault detection observer (FDO) design criterion is proposed such that the generated residual is sensitive to system faults while robust against exogenous disturbance and measurement noise.