Relative phase of distributed oscillatory dynamics implements a working memory in a simple brain

Raymond L Dunn, Caitriona Costello, Jackson M Borchardt, Daniel Yutaka Sprague, Grace C Chiu, Julia M Miller, Noelle L'Etoile, Saul Kato
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Abstract

We report the existence of a working memory system in the nematode C. elegans that is employed for deferred action in a sensory-guided decision-making process. We find that the turn direction of discrete reorientations during navigation is under sensory-guided control and relies on a working memory that can persist over an intervening behavioral sequence. This memory system is implemented by the phasic interaction of two distributed oscillatory dynamical components. The interaction of oscillatory neural ensembles may be a conserved primitive of cognition across the animal kingdom.
分布式振荡动力学的相对相位在简单大脑中实现了工作记忆
我们报告了线虫中工作记忆系统的存在,该系统在感官引导的决策过程中被用于延迟行动。我们发现,在导航过程中,离散方向调整的转向是在感觉引导控制下进行的,并且依赖于一种工作记忆,这种工作记忆可以在行为序列中持续存在。这种记忆系统是通过两个分布式振荡动态成分的相位相互作用实现的。振荡神经组合的相互作用可能是动物界中一种保守的原始认知方式。
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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