Contribuições à análise de robustez de sistemas de controle usando redes neurais

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This work develops a robustness analysis with respect to the modeling errors, being applied to the strategies of indirect control using Artificial Neural Networks - ANN s, belong to the multilayer feedforward perceptron class with on-line training based on gradient method (backpropagation). The pres...

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Bibliografiska uppgifter
Huvudupphovsman: Gabriel Filho, Oscar
Övriga upphovsmän: Maitelli, André Laurindo
Materialtyp: doctoralThesis
Språk:por
Publicerad: Universidade Federal do Rio Grande do Norte
Ämnen:
Estabilidade e Robustez de Sistemas de Controle Neurais
Controle Inteligente
Redes Neurais Artificiais
Redes Multicamadas
Neural Control Systems
Stability and Robustness
Intelligent Control
Artificial Neural Networks
Multilayer Perceptron
CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA
Länkar:https://repositorio.ufrn.br/jspui/handle/123456789/15178
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Sammanfattning:This work develops a robustness analysis with respect to the modeling errors, being applied to the strategies of indirect control using Artificial Neural Networks - ANN s, belong to the multilayer feedforward perceptron class with on-line training based on gradient method (backpropagation). The presented schemes are called Indirect Hybrid Control and Indirect Neural Control. They are presented two Robustness Theorems, being one for each proposed indirect control scheme, which allow the computation of the maximum steady-state control error that will occur due to the modeling error what is caused by the neural identifier, either for the closed loop configuration having a conventional controller - Indirect Hybrid Control, or for the closed loop configuration having a neural controller - Indirect Neural Control. Considering that the robustness analysis is restrict only to the steady-state plant behavior, this work also includes a stability analysis transcription that is suitable for multilayer perceptron class of ANN s trained with backpropagation algorithm, to assure the convergence and stability of the used neural systems. By other side, the boundness of the initial transient behavior is assured by the assumption that the plant is BIBO (Bounded Input, Bounded Output) stable. The Robustness Theorems were tested on the proposed indirect control strategies, while applied to regulation control of simulated examples using nonlinear plants, and its results are presented

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