Chih-Hu Wang scite author profile

This paper addresses the synchronization of chaotic gyros with unknown parameters and external disturbance via an adaptive dynamic neural network control (ADNNC) system. The proposed ADNNC system is composed of a neural controller and a smooth compensator. The neural controller uses a dynamic RBF (DRBF) network to online approximate an ideal controller. The DRBF network can create new hidden neurons online if the input data falls outside the hidden layer and prune the insignificant hidden neurons online if the hidden neuron is inappropriate. The smooth compensator is designed to compensate for the approximation error between the neural controller and the ideal controller. Moreover, the variable learning rates of the parameter adaptation laws are derived based on a discrete-type Lyapunov function to speed up the convergence rate of the tracking error. Finally, the simulation results which verified the chaotic behavior of two nonlinear identical chaotic gyros can be synchronized using the proposed ADNNC scheme.

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Performance improvement on duplicate address detection in IP mobility protocols

Liu

Wang

2015

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Chattering-Free Adaptive Wavelet Neural Network Control for a BLDC Motor via Dynamic Sliding-Mode Approach

Hsu

Wang

2010

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CALE: A Context-Aware Living Environment Based on Zigbee Sensor Network

Liou

Yeh

et al. 2010

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Chih-Hu Wang

Synchronization of two coupled neurons using CMAC neural networks

Chaos Synchronization Using Adaptive Dynamic Neural NetworkController with Variable Learning Rates

Performance improvement on duplicate address detection in IP mobility protocols

Chattering-Free Adaptive Wavelet Neural Network Control for a BLDC Motor via Dynamic Sliding-Mode Approach

CALE: A Context-Aware Living Environment Based on Zigbee Sensor Network

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