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Genetic algorithms for local controller network construction

Genetic algorithms for local controller network construction

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Local Controller Networks (LCNs) provide nonlinear control by interpolating between a set of locally valid, subcontrollers covering the operating range of the plant. Constructing such networks typically requires knowledge of valid local models. This paper describes a new genetic learning approach to the construction of LCNs directly from the dynamic equations of the plant, or from modelling data. The advantage is that a priori knowledge about valid local models is not needed. In addition to allowing simultaneous optimisation of both the controller and validation function parameters, the approach aids transparency by ensuring that each local controller acts independently of the rest at its operating point. It thus is valuable for simultaneous design of the LCNs and identification of the operating regimes of an unknown plant. Application results from a highly nonlinear pH neutralisation process and its associated neural network representation are utilised to illustrate these issues.

Inspec keywords: identification; large-scale systems; genetic algorithms; nonlinear control systems

Other keywords: subcontrollers; neural network representation; genetic algorithms; transparency; highly nonlinear pH neutralisation process; local controller network construction; nonlinear control; validation function parameters; operating regimes identification; plant dynamic equations

Subjects: Simulation, modelling and identification; Optimisation techniques; Multivariable control systems; Nonlinear control systems

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