Heteroclinic networks for brain dynamics

Hildegard Meyer-Ortmanns
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Abstract

Heteroclinic networks are a mathematical concept in dynamic systems theory that is suited to describe metastable states and switching events in brain dynamics. The framework is sensitive to external input and, at the same time, reproducible and robust against perturbations. Solutions of the corresponding differential equations are spatiotemporal patterns that are supposed to encode information both in space and time coordinates. We focus on the concept of winnerless competition as realized in generalized Lotka–Volterra equations and report on results for binding and chunking dynamics, synchronization on spatial grids, and entrainment to heteroclinic motion. We summarize proposals of how to design heteroclinic networks as desired in view of reproducing experimental observations from neuronal networks and discuss the subtle role of noise. The review is on a phenomenological level with possible applications to brain dynamics, while we refer to the literature for a rigorous mathematical treatment. We conclude with promising perspectives for future research.
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脑动力学的异诊所网络
异诊所网络是动态系统理论中的一个数学概念,适用于描述脑动力学中的亚稳态和开关事件。该框架对外部输入敏感,同时对扰动具有可重复性和鲁棒性。相应的微分方程的解是时空模式,应该在空间和时间坐标中编码信息。我们专注于在广义Lotka-Volterra方程中实现的无赢家竞争概念,并报告了绑定和分块动力学,空间网格上的同步以及对异斜运动的纠缠的结果。我们总结了如何根据需要设计异诊所网络的建议,以再现神经网络的实验观察,并讨论了噪声的微妙作用。这篇综述是在现象学层面上的,可能应用于大脑动力学,同时我们参考文献进行严格的数学处理。最后,我们展望了未来研究的前景。
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2.70
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