Adaptive control of multivariable dynamic systems using independent self-tuning neurons

Proceedings Tenth IEEE International Conference on Tools with Artificial Intelligence (Cat. No.98CH36294) Pub Date : 1998-11-10 DOI:10.1109/TAI.1998.744771
W. Chang, R. Hwang, J. Hsieh
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引用次数: 7

Abstract

An adaptive controller composed of several independent self tuning neurons for multivariable dynamic systems is developed. Unlike traditional fully connected neural network, there are no synaptic connections among the independent neurons in our proposed controller. Each self tuning neuron can be regarded as an independent adaptive controller. It eases the hardware implementation due to the simplicity of our proposed neuron controller. Two case studies are provided to demonstrate the use of the proposed controller where the system dynamics is fully known or only partially known.
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基于独立自调谐神经元的多变量动态系统自适应控制
针对多变量动态系统,提出了一种由多个独立自整定神经元组成的自适应控制器。与传统的全连接神经网络不同,该控制器中独立神经元之间不存在突触连接。每个自整定神经元可以看作是一个独立的自适应控制器。由于我们所提出的神经元控制器的简单性,它简化了硬件实现。提供了两个案例研究来演示在系统动力学完全已知或仅部分已知的情况下所提出的控制器的使用。
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Proceedings Tenth IEEE International Conference on Tools with Artificial Intelligence (Cat. No.98CH36294)
Proceedings Tenth IEEE International Conference on Tools with Artificial Intelligence (Cat. No.98CH36294)
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