Yinliang Xu
Tsinghua University
163 Papers
208 Citations
Yinliang Xu is an academic researcher from Tsinghua University. The author has contributed to research in topics: Computer science & Electric power system. The author has an hindex of 30, co-authored 121 publications. Previous affiliations of Yinliang Xu include Carnegie Mellon University & Joint Institute for Nuclear Research.
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Papers
Determining the pricing and deployment strategy for virtual power plants of peer-to-peer prosumers: A game-theoretic approach
TL;DR: In this article , a two-stage game model is proposed to guide the pricing and deployment strategy for P2P-based virtual power plants to charge for sharing services with the prosumers.
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Exponential stability analysis and stabilization of switched delay systems
TL;DR: The merit of the proposed results lies in its reduced conservatism, which is made possible by a precise approximation of the time-varying delay and the scaled small gain theorem.
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Attack-Resilient Distributed Control for Islanded Single-/Three-Phase Microgrids Based on Distributed Adaptive Observers
TL;DR: To guarantee satisfactory power sharing and voltage control performance asymptotically achieved for the S/T-MGs, an attack-resilient distributed secondary control approach is developed by designing a distributed adaptive observer.
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Design and manufacturing of digital MOSFET based-AVR for synchronous generator
Irfan Khan,Yinliang Xu,Bilal Tahir +2 more
- 08 Jun 2015
TL;DR: In this article, an automatic voltage regulator is designed to keep the terminal voltage of the generator constant, regardless of all disturbances, by controlling field current of synchronous generator which is directly related to terminal voltage.
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•Posted Content
Compressive Sensing and Morphology Singular Entropy-Based Real-time Secondary Voltage Control of Multi-area Power Systems
TL;DR: In this paper, an improved secondary voltage control (SVC) methodology incorporating compressive sensing (CS) for a multi-area power system is presented, which minimizes the voltage deviation of the load buses and deals with the problem of the limited bandwidth capacity of the communication channel by reducing the size of massive data output from phasor measurement unit (PMU) based monitoring system.
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