Fuzzy reduced-order filtering for nonlinear parabolic PDE systems with limited communication

Zhen Zhang; Xiaona Song; Chunlei Li; Xiangliang Sun

doi:10.20517/ces.2021.10

Complex Engineering Systems ›› 2021, Vol. 1 ›› Issue (2) :9 DOI: 10.20517/ces.2021.10

Research Article

Fuzzy reduced-order filtering for nonlinear parabolic PDE systems with limited communication

Author information +

History +

PDF

Abstract

This paper investigates a fuzzy reduced-order filter design for a class of nonlinear partial differential equation (PDE) systems. First, a Takagi-Sugeno (T-S) fuzzy model is considered to reconstruct the nonlinear PDE system. Then, the employment of an event-triggered mechanism (ETM) can effectively avoid signal redundancy and improve network resource utilization. Furthermore, based on the advantages of the fuzzy model and ETM, several Lyapunov functions are designed and the proposed filter parameters are obtained by adopting linear matrix inequality methods to satisfy the asymptotic stability condition with H_∞ performance. Finally, a simulation example is presented to demonstrate the practicality and effectiveness of the proposed filter design method.

Keywords

PDE systems / reduced-order fuzzy filtering / event-triggered mechanism / T-S fuzzy model

Cite this article

Download citation ▾

Zhen Zhang, Xiaona Song, Chunlei Li, Xiangliang Sun. Fuzzy reduced-order filtering for nonlinear parabolic PDE systems with limited communication. Complex Engineering Systems, 2021, 1(2): 9 DOI:10.20517/ces.2021.10

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Ray W.Advanced process control.1981;New YorkMcGraw Hill

[2]	Sun J,Xiong N.Learning sparse representation with variational auto-encoder for anomaly detection..IEEE Access2018;6:33353-61

[3]	Fang W,Zhao X,Xiong N.A stochastic control approach to maximize profit on service provisioning for mobile cloudlet platforms..IEEE Trans Syst Man Cybern2016;48:522-34

[4]	Ferragut A.Fluid models of population and download progress in P2P networks..IEEE Trans Control Netw Syst2016;3:34-45

[5]	Lu X,Huang M.A novel spatiotemporal LS-SVM method for complex distributed parameter systems with applications to curing thermal process..IEEE Trans Industr Inform2016;12:1156-65

[6]	Song X,Ahn CK.Finite-time fuzzy bounded control for semilinear PDE systems with quantized measurements and Markov jump actuator failures..IEEE Trans Cybern2021;

[7]	Karafyllis I,Papageorgiou M.Feedback control of nonlinear hyperbolic PDE systems inspired by traffic flow models..IEEE Trans Automat Contr2019;64:3647-62

[8]	Wu H,Li H.Fuzzy boundary control design for a class of nonlinear parabolic distributed parameter systems..IEEE Trans Fuzzy Syst2014;22:642-52

[9]	Froese BD,Salvador T.Numerical methods for the 2-Hessian elliptic partial differential equation..IMA Journal of Numerical Analysis2017;37:209-36

[10]	Christofides P.Nonlinear and robust control of PDE systems: methods and applications to transport-reaction processes.2001;USA: Springer Science & Business Media

[11]	Deng H,Chen G.Spectral-approximation-based intelligent modeling for distributed thermal processes..IEEE Trans Control Syst Technol2005;13:686-700

[12]	Wang Z,Li H.Estimator-based H_∞ sampled-data fuzzy control for nonlinear parabolic PDE systems..IEEE Trans Syst Man Cybern2020;50:2491-500

[13]	Wang Z.Sampled-data fuzzy control with guaranteed cost for nonlinear parabolic PDE systems via static output feedback..IEEE Trans Fuzzy Syst2020;28:2452-65

[14]	Deutscher J.Robust cooperative output regulation for a network of parabolic PDE systems..IEEE Trans Automat Contr2021;

[15]	Wang J.Dynamic boundary fuzzy control design of semilinear parabolic PDE systems with spatially noncollocated discrete observation..IEEE Trans Cybern2019;49:3041-51

[16]	Zhang X.Fuzzy control design of nonlinear time-delay parabolic PDE systems under mobile collocated actuators and sensors..IEEE Trans Cybern2020;

[17]	Song X,Zhang B.Event-triggered reliable H_∞ fuzzy filtering for nonlinear parabolic PDE systems with Markovian jumping sensor faults..Information Sciences2020;510:50-69

[18]	Takagi T.Fuzzy identification of systems and its applications to modeling and control..IEEE Trans Syst Man Cybern1985;15:116-32

[19]	Tsai SH.Robust H_∞ stabilization conditions for a class of uncertain T-S fuzzy neutral systems with disturbance..Neurocomputing2016;193:68-80

[20]	Chen Z,Zhang Y,Zhang Z.Event-based control for networked T-S fuzzy systems via auxiliary random series approach..IEEE Trans Cybern2018;50:2166-75

[21]	Sheng Y,Zeng Z.Stability and stabilization of Takagi-Sugeno fuzzy systems with hybrid time-varying delays..IEEE Trans Fuzzy Syst2019;27:2067-78

[22]	Kerschbaum S.Backstepping control of coupled linear parabolic PDEs with space and time dependent coefficients..IEEE Trans Automat Contr2020;65:3060-7

[23]	Qiu Q,Zeng Z.Distributed adaptive output feedback consensus of parabolic PDE agents on undirected networks..IEEE Trans Cybern2021;

[24]	Bing L,Zhang J.A time-driven data placement strategy for a scientific workflow combining edge computing and cloud computing..IEEE Trans Industr Inform2019;15:4254-65

[25]	Tabuada P.Event-triggered real-time scheduling of stabilizing control tasks..IEEE Trans Automat Contr2007;52:1680-5

[26]	Wang J.Event-triggered output-feedback backstepping control of sandwiched hyperbolic PDE Systems..IEEE Trans Automat Contr2021;

[27]	Ji H,Cui B.Event-triggered H_∞ filtering control for a class of distributed parameter systems with Markovian switching topology..J Franklin Inst2018;355:5928-56

[28]	Ji H.Event-generator-based H_∞ control of fuzzy distributed parameter systems..Fuzzy Sets Syst2021;

[29]	Mu W,Zhuang B.Optimal actuator switching synthesis of observer-based event-triggered state feedback control for distributed parameter systems..J Franklin Inst2021;358:384-99

[30]	Liang H,Zhang H.Neural-network-based event-triggered adaptive control of nonaffine nonlinear multiagent systems with dynamic uncertainties..IEEE Trans Neural Netw Learn Syst2021;32:2239-50

[31]	Liang H,Pan Y.Event-triggered fuzzy bipartite tracking control for network systems based on distributed reduced-order observers..IEEE Trans Fuzzy Syst2021;29:1601-14

[32]	Ji H,Liu X.Event-triggered predictor-based control of distributed parameter systems..2021;15:721-36

[33]	Liu L,Liu Y.Time-varying IBLFs-based adaptive control of uncertain nonlinear systems with full state constraints..Automatica2021;129:109595

[34]	Liu L,Chen A.Integral barrier Lyapunov function-based adaptive control for switched nonlinear systems..Sci China Life Sci2020;63:1-14

[35]	Liang H,Zhang H.Containment control for singular multi-agent systems with an internal model compensator..Sci China Life Sci2020;63:1-3

[36]	Li H,Liu W.A dimensionality reduction-based multi-step clustering method for robust vessel trajectory analysis..Sensors2017;17:1792

[37]	Zhang B,Ma Q.Output-feedback stabilization of singular LPV systems subject to inexact scheduling parameters..Automatica2019;104:1-7

[38]	Su X,Shi P.Event-triggered fuzzy filtering for nonlinear dynamic systems via reduced-order approach..IEEE Trans Fuzzy Syst2019;27:1215-25

[39]	Yang H,Xia Y.Reduced-order H_∞ filter design for delta operator systems over multiple frequency intervals..IEEE Trans Automat Contr2020;65:5376-83

[40]	Pan Y.Event-based reduced-order fuzzy filtering for networked control systems with time-varying delays..Appl Math Comput2019;359:71-83

[41]	Li H,Zhou Q.Filter design for interval type-2 fuzzy systems with D stability constraints under a unified frame..IEEE Trans Fuzzy Syst2015;23:719-25

[42]	Shen H,Wu Z,Lu G.Network-based quantized control for fuzzy singularly perturbed semi-Markov jump systems and its application..IEEE Trans Circuits Syst I Regul Pap2019;66:1130-40

[43]	Wang J,Li H.Distributed proportional-spatial derivative control of nonlinear parabolic systems via fuzzy PDE modeling approach..IEEE Trans Syst Man Cybern2012;42:927-38