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.
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A New Perspective of Gallic Acid on Calcium Oxalate Nucleation
TL;DR: In this article, the potential effects of crystal modifiers on the biocrystallization process of calcium oxalate have been investigated for nephrolithiasis, which is a primary cause of kidney cancer.
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Resilient guaranteed cost control for uncertain discrete linear jump systems
TL;DR: The necessary and sufficient conditions for robust stochastic stabilization and guaranteed cost control for a class of uncertain discrete-time linear system with Markovian jumping parameters are derived in terms of positive-definite solutions of a set of coupled linear matrix inequalities (LMIs).
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A novel approach of mining strong jumping emerging patterns based on BSC-tree
TL;DR: This article introduces a novel pattern pruning method, which dramatically reduces non-minimal jumping emerging patterns (JEPs) during the mining process and shows that the proposed method is substantially faster, able to handle higher-dimensional datasets and to prune more non-Minimal JEPs.
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Memory Output-Feedback Integral Sliding Mode Control for Furuta Pendulum Systems
TL;DR: A novel delay-dependent output-based sliding surface is constructed for state estimation and performance analysis, which inherits the appealing properties of the state-feedback integral sliding surface such as the elimination of reaching phase.
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Eutectics and Salt of Dapsone With Hydroxybenzoic Acids: Binary Phase Diagrams, Characterization and Evaluation
TL;DR: The powder dissolution study and microenvironment pH measurement reveal that both salt and eutectics of DAP display improvements on the dissolution rate and equilibrium concentration in which the acidity of coformers plays a dominant role.