Dynamics of Structured Complex-Valued Hopfield Neural Networks
In this paper, we explore the dynamics of structured complex-valued Hopfield neural networks (CvHNNs), which arise when the synaptic weight matrix possesses specific structural properties. We begin by analyzing CvHNNs with a Hermitian synaptic weight matrix and establish the existence of four-cycle dynamics in CvHNNs with skew-Hermitian weight matrices operating synchronously. Furthermore, we introduce two new classes of complex-valued matrices: braided Hermitian and braided skew-Hermitian matrices. We demonstrate that CvHNNs utilizing these matrix types exhibit cycles of length eight when operating in full parallel update mode. Finally, we conduct extensive computational experiments on synchronous CvHNNs, exploring other synaptic weight matrix structures. The findings provide a comprehensive overview of the dynamics of structured CvHNNs, offering insights that may contribute to developing improved associative memory models when integrated with suitable learning rules.
View on arXiv@article{garimella2025_2503.19885,
title={ Dynamics of Structured Complex-Valued Hopfield Neural Networks },
author={ Rama Murthy Garimella and Marcos Eduardo Valle and Guilherme Vieira and Anil Rayala and Dileep Munugoti },
journal={arXiv preprint arXiv:2503.19885},
year={ 2025 }
}