Control of Complex Nonlinear Dynamic Systems with Incremental Deep Learning Neural Networks

Antonio Moran Cardenas; Masao Nagai

Control of Complex Nonlinear Dynamic Systems with Incremental Deep Learning Neural Networks

Antonio Moran Cardenas, Masao Nagai

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

This paper proposes incremental deep learning methods for training neural networks to control the response of complex nonlinear dynamic systems. By analyzing the complexity of the task to be fulfilled by the neural network, learning strategies are formulated and implemented in an incremental scheme starting from simple tasks and continuing with increasingly complex tasks. The Dynamic Back Propagation algorithm is used for training the neuro-controller in each step of the incremental learning process, considering the system nonlinear dynamics. The results obtained in the control of highly unstable nonlinear systems, and the positioning control of mobile robots verify the effectiveness of the proposed incremental deep learning strategies.

Original language	Spanish
Title of host publication	Proceedings of the International Joint Conference on Neural Networks
State	Published - 1 Jul 2020
Externally published	Yes

Cite this

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title = "Control of Complex Nonlinear Dynamic Systems with Incremental Deep Learning Neural Networks",

abstract = "This paper proposes incremental deep learning methods for training neural networks to control the response of complex nonlinear dynamic systems. By analyzing the complexity of the task to be fulfilled by the neural network, learning strategies are formulated and implemented in an incremental scheme starting from simple tasks and continuing with increasingly complex tasks. The Dynamic Back Propagation algorithm is used for training the neuro-controller in each step of the incremental learning process, considering the system nonlinear dynamics. The results obtained in the control of highly unstable nonlinear systems, and the positioning control of mobile robots verify the effectiveness of the proposed incremental deep learning strategies.",

author = "Cardenas, {Antonio Moran} and Masao Nagai",

year = "2020",

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AU - Cardenas, Antonio Moran

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N2 - This paper proposes incremental deep learning methods for training neural networks to control the response of complex nonlinear dynamic systems. By analyzing the complexity of the task to be fulfilled by the neural network, learning strategies are formulated and implemented in an incremental scheme starting from simple tasks and continuing with increasingly complex tasks. The Dynamic Back Propagation algorithm is used for training the neuro-controller in each step of the incremental learning process, considering the system nonlinear dynamics. The results obtained in the control of highly unstable nonlinear systems, and the positioning control of mobile robots verify the effectiveness of the proposed incremental deep learning strategies.

AB - This paper proposes incremental deep learning methods for training neural networks to control the response of complex nonlinear dynamic systems. By analyzing the complexity of the task to be fulfilled by the neural network, learning strategies are formulated and implemented in an incremental scheme starting from simple tasks and continuing with increasingly complex tasks. The Dynamic Back Propagation algorithm is used for training the neuro-controller in each step of the incremental learning process, considering the system nonlinear dynamics. The results obtained in the control of highly unstable nonlinear systems, and the positioning control of mobile robots verify the effectiveness of the proposed incremental deep learning strategies.

M3 - Contribución a la conferencia

BT - Proceedings of the International Joint Conference on Neural Networks

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