Matrix criterion for dynamic analysis in discrete neural networks with multiple delays

Proceedings. International Conference on Machine Learning and Cybernetics Pub Date : 2002-11-04 DOI:10.1109/ICMLC.2002.1175439

Eric C. C. Tsang, S. Qiu, D. Yeung

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Abstract

The dynamics of a discrete Hopfield neural network with multiple delays (HNNMDs) is studied by using a matrix inequality which is shown to be equivalent to the state transition equation of the HNNMDs network. Earlier work (2000) on discrete Hopfield neural networks showed that a parallel or serial mode of operation always leads to a limit cycle of period one or two for a skew or symmetric matrix, but they did not give an arbitrary weight matrix on how an updating operation might be needed to reach such a cycle. In this paper we present the existence conditions of limit cycles using matrix criteria in the HNNMDs network. For a network with an arbitrary weight matrix, the necessary and sufficient conditions for the existence of a limit cycle of period 1 and r are provided. The conditions for the existence of a special limit cycle of period 1 and 2 are also found. These results provide the foundation for many applications. A HNNMDs is said to have no stable state (fixed point) if it has a limit cycle of period 2 or more, which is stated in Theorem 5. A computer simulation demonstrates that the theoretical analysis in Theorem 5 is correct.

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多时滞离散神经网络动态分析的矩阵准则

利用矩阵不等式研究了离散多时滞Hopfield神经网络(hnnmd)的动力学问题，并证明该矩阵不等式等价于hnnmd网络的状态转移方程。早期关于离散Hopfield神经网络的工作(2000)表明，对于一个倾斜或对称矩阵，并行或串行操作模式总是导致周期为1或2的极限环，但他们没有给出一个任意的权重矩阵，说明如何更新操作才能达到这样的循环。本文利用矩阵准则给出了hnnmd网络极限环的存在条件。对于具有任意权矩阵的网络，给出了周期为1和r的极限环存在的充分必要条件。并给出了周期为1和2的特殊极限环存在的条件。这些结果为许多应用提供了基础。如果一个hnnmd有一个周期大于等于2的极限环，则它没有稳定状态(不动点)，这在定理5中有表述。计算机仿真验证了定理5的理论分析是正确的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings. International Conference on Machine Learning and Cybernetics

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