Results 11 to 20 of about 1,846,291 (243)
LMI Properties and Applications in Systems, Stability, and Control Theory
, 2019 Linear matrix inequalities (LMIs) commonly appear in systems, stability, and control applications. Many analysis and synthesis problems in these areas can be solved as feasibility or optimization problems subject to LMI constraints. Although most well-known LMI properties and manipulation tricks, such as the Schur complement and the congruence ...
Caverly, Ryan James +1 more
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Dissipative stability theory for linear repetitive processes with application in iterative learning control [PDF]
, 2009 This paper develops a new set of necessary and sufficient conditionsfor the stability of linear repetitiveprocesses, based on a dissipative setting for analysis. Theseconditions reduce the problem of determining whether a linearrepetitive process is stable or not to that of checking for theexistence of a solution to a set of linear matrixinequalities ...
Paszke, Wojuech +3 more
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IET Control Theory & Applications, 2021 This paper presents a novel adaptive memory‐event‐triggered scheme (A‐METS) for network‐based T‐S fuzzy systems with asynchronous premise constraints. Different from the event‐triggered scheme (ETS), the proposed A‐METS has two characters.
Yucheng Shi +3 more
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Control theory application in power market stability analysis [PDF]
2004 IEEE International Conference on Electric Utility Deregulation, Restructuring and Power Technologies. Proceedings, 2004 This paper proposes a new framework to model the system dynamics and study the system stability for the quantity bidding competition in power market. From the viewpoint of control theory, the quantity bidding competition is modeled as close-loop dynamic system, where market price is the system feedback signal.
Wu, FF, Ni, YX, Liu, Y
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IET Control Theory & Applications, 2021 This paper addresses the problem of uncertain fuzzy intermittent extended dissipative control to stabilize the flexible spacecraft (FS). However, to the systems with actuator random failures, input saturation and Bernoulli stochastic distribution by ...
Kui Ding, Quanxin Zhu
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Stabilization of stochastic functional differential systems by steepest descent feedback controls
IET Control Theory & Applications, 2021 The mean‐square exponential stabilization and stochastically asymptotical stabilization for a class of stochastic functional differential systems is studied.
Xuetao Yang, Quanxin Zhu
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IET Control Theory & Applications, 2021 The paper devotes to study fixed‐time stability of stochastic nonlinear systems and fixed‐time consensus of stochastic multi‐agent systems (SMASs). Firstly, a new fixed‐time stability theorem is established and a high‐precise estimation of settling time ...
Jiaju Yu, Shuanghe Yu, Yan Yan
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IET Control Theory & Applications, 2021 Controlling the movements of trains to desired target speed and distance without breaking through safety regions is of primary importance in practical applications for safety reasons.
Lu Yan +4 more
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IET Control Theory & Applications, 2021 In this paper, the state‐dependent impulsive consensus problem of nonlinear multi‐agent systems in directed topology with fully relative state constraint impulses is investigated.
Qiangqiang Zhang +3 more
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Experimental study on a robust interaction control with unknown environments
Electronics Letters, 2021 The non‐linear bang‐bang impact control (NBBIC) had been proposed two decades ago as a promising robot interaction control to deal with free‐space motion, impact, and the constrained‐space motion without changing controller structure and gains.
Sang Hyun Park +3 more
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