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Parallel Control of Distributed Parameter Systems
IEEE Transactions on Cybernetics, 2018In this paper, we study the control problems of distributed parameter systems, and discuss the limitations of traditional control methods. In recent years, social factors have gradually become an essential parameter of system modeling. For complex distributed parameter systems, the accurate modeling becomes difficult.
Yuhua Song +5 more
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Estimation of Distributed Parameter Systems
Journal of Guidance, Control, and Dynamics, 1982The estimation and control of large flexible space structures pose significant new control technology problems. One major problem area is the closed-loop stability of a structure that has been modeled with truncated modal dynamics. Stability problems arise due to the control design process beginning with a deficient model.
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Parameter identification in linear distributed parameter systems
IEEE Transactions on Automatic Control, 1973Perturbation analysis is used to identify unknown but constant parameters in a linear distributed parameter system. Noisy observations are assumed to be available at a finite number of spatial locations. A numerical example is solved to illustrate the proposed method.
Bhagavan, B. K., Nardizzi, L. R.
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Distributed Parameter System Modeling
2014This chapter discusses a distributed parameter system modeling of ionic polymer-metal composite actuators based on modified Yamaue’s electro-stress diffusion coupling model. The lowest order linear time invariant state equation with the spatial variable is derived to carry out the simulation.
Kentaro Takagi +3 more
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SYSTEM CHARACTERISTICS OF DISTRIBUTED PARAMETER SYSTEMS
Proceedings of the Technical University of Sofia, 2020The paper considers the problem of distributed parameter systems modeling. The basic model types are presented, depending on the partial differential equation, which determines the physical processes dynamics. The similarities and the differences with the models described in terms of ordinary differential equations are discussed. A special attention is
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Stability of Nonlinear Distributed Parameter Systems
IFAC Proceedings Volumes, 1977Abstract The stability problem for the equation ẋ = Ax + Bx, where A generates a semigroup T(t) and B is a nonlinear operator, is studied by using the Lyapunov functional V ( x ) = 〈 ∫ 0 ∞ T * ( t ) QT ( t ) xdt , x 〉 for some positive selfadjoint operator Q.
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Compensator Design for Distributed Parameter Systems
IFAC Proceedings Volumes, 1983Abstract Stabilization of linear finite dimensional systems is an important design problem in systems control theory and continues to receive much atten tion in the literature. The problem of stabilization of infinite dimensional linear systems is a much harder problem and the results are less complete.
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Transfer functions of distributed parameter systems: A tutorial
Automatica, 2009zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Curtain, Ruth, Morris, Kirsten
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A distributed parameter system simulator
SIMULATION, 1986A simple and easy-to-use computer simulator (TDP) t for distrib uted parameter systems is presented. The simulator is based on commercially available TWODEPEP (a partial differential equa tion solver), to which measurement and control software mod ules have been added.
Matti Aaltonen +2 more
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Controllability of Distributed Parameter Systems
Computational Mathematics and Mathematical PhysicszbMATH Open Web Interface contents unavailable due to conflicting licenses.
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