H
Huijun Gao
Researcher at Harbin Institute of Technology
Publications - 722
Citations - 50296
Huijun Gao is an academic researcher from Harbin Institute of Technology. The author has contributed to research in topics: Linear matrix inequality & Control theory. The author has an hindex of 121, co-authored 685 publications receiving 44399 citations. Previous affiliations of Huijun Gao include Brunel University London & Xidian University.
Papers
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Output Tracking Control for Nonminimum Phase Flexible Air-Breathing Hypersonic Vehicle Models
TL;DR: Based on the nonlinear stable inversion approach, an exact output tracking control law is designed for flexible air-breathing hypersonic vehicles (FAHVs) in this paper.
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Character Segmentation-Based Coarse-Fine Approach for Automobile Dashboard Detection
TL;DR: The experimental results show that the pointer extraction method is robust to interferences caused by connected components of digits and also that the established character segmentation classifier has a more accurate detection result.
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Further improvement on synchronization stability of complex networks with coupling delays
TL;DR: This paper revisits the problem of synchronization stability for general complex dynamical networks with coupling delays with a new delay-dependent criterion derived by introducing a new kind of Lyapunov–Krasovskii functional formulated in terms of a linear matrix inequality, which can be readily solved via standard software.
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Zebrafish Larva Orientation and Smooth Aspiration Control for Microinjection
TL;DR: This paper presents a novel zebrafish larva manipulation technique with two key steps in the microinjection system: orienting and aspirating zebra fish larvae automatically and an adaptive robust controller designed.
Proceedings Article
Robust H ∞ filtering of nonlinear networked systems with multiple stochastic communication delays
TL;DR: In this paper, the robust H ∞ filtering problem for a class of uncertain nonlinear networked systems with both multiple stochastic time-varying communication delays and multiple packet dropouts is considered.