Yu-Chu Tian focuses on Control theory, Control system, Weighting, Distributed computing and Robust control. His Control theory research is multidisciplinary, relying on both Chaotic, State and Numerical stability. His Control system study focuses on Networked control system in particular.
His studies in Networked control system integrate themes in fields like Telecommunications network, Queueing theory, Processing delay and Network packet. Yu-Chu Tian combines subjects such as Temporal isolation among virtual machines, Virtualization, Energy consumption, Wireless sensor network and Actuator with his study of Distributed computing. His Robust control research focuses on subjects like Stability conditions, which are linked to Fuzzy control system and Robustness.
His primary areas of investigation include Distributed computing, Control theory, Control system, Computer network and Scalability. Yu-Chu Tian has included themes like Energy consumption, Quality of service, Scheduling, Efficient energy use and Big data in his Distributed computing study. The Efficient energy use study combines topics in areas such as Data center and Server.
His research in the fields of Control theory, Robustness and Nonlinear system overlaps with other disciplines such as Load rejection. His Control system study combines topics in areas such as Telecommunications network and Network architecture. His Computer network research integrates issues from Wireless network and Smart grid.
Yu-Chu Tian mostly deals with Distributed computing, Smart grid, Control theory, Control system and Computer security. Yu-Chu Tian interconnects Energy consumption, Optimization problem, Resource allocation and Telecommunications network in the investigation of issues within Distributed computing. His research integrates issues of Routing, Wireless sensor network, Network topology, Multicast and Computer network in his study of Smart grid.
His studies deal with areas such as Power, Transmission and Bounded function as well as Control theory. Yu-Chu Tian has researched Control system in several fields, including Network architecture, Denial-of-service attack and Network security. His Computer security study integrates concerns from other disciplines, such as Industrial control system, Actuator, Cyber-physical system and Resilience.
Yu-Chu Tian mainly investigates Distributed computing, Smart grid, Energy consumption, Control theory and Optimization problem. His Distributed computing study incorporates themes from Electric vehicle, Heuristics, Efficient energy use and Ant colony. His work in the fields of Mobile edge computing overlaps with other areas such as Energy source.
His research in Control theory intersects with topics in Electricity generation, AC power and Electric power system. His Optimization problem research incorporates themes from Global optimum and Firefly algorithm. The various areas that Yu-Chu Tian examines in his Network packet study include Control system, Networked control system, Transmission, Exponential stability and Denial-of-service attack.
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Wireless Sensor/Actuator Network Design for Mobile Control Applications
Feng Xia;Yu-Chu Tian;Yanjun Li;Youxian Sung.
Delay-dependent robust stability criteria for uncertain systems with interval time-varying delay
Chen Peng;Yu-Chu Tian.
Journal of Computational and Applied Mathematics (2008)
Networked H∞ control of linear systems with state quantization
Chen Peng;Yu-Chu Tian.
Information Sciences (2007)
State feedback controller design of networked control systems with interval time-varying delay and nonlinearity
Chen Peng;Chen Peng;Yu-Chu Tian;Moses O. Tadé.
International Journal of Robust and Nonlinear Control (2008)
A Secure Charging Scheme for Electric Vehicles With Smart Communities in Energy Blockchain
Zhou Su;Yuntao Wang;Qichao Xu;Minrui Fei.
IEEE Internet of Things Journal (2019)
Improved Stability and Stabilization Results for Stochastic Synchronization of Continuous-Time Semi-Markovian Jump Neural Networks With Time-Varying Delay
Yanling Wei;Ju H. Park;Hamid Reza Karimi;Yu-Chu Tian.
IEEE Transactions on Neural Networks (2018)
Adaptive control of chaotic continuous-time systems with delay
Yu-Chu Tian;Furong Gao.
Physica D: Nonlinear Phenomena (1998)
Energy-Efficient virtual machine placement in data centers by genetic algorithm
Grant Wu;Maolin Tang;Yu-Chu Tian;Wei Li.
international conference on neural information processing (2012)
Improved delay-dependent robust stabilization conditions of uncertain T--S fuzzy systems with time-varying delay
Chen Peng;Yu-Chu Tian;Engang Tian.
Fuzzy Sets and Systems (2008)
Improved delay-dependent robust stability criteria for uncertain systems with interval time-varying delay
C. Peng;Y.-C. Tian.
Iet Control Theory and Applications (2008)
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