Role of delay in brain dynamics

IF 2.8 3区 物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY
Yuval Meir , Ofek Tevet , Yarden Tzach , Shiri Hodassman , Ido Kanter
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引用次数: 0

Abstract

Significant variations of delays among connecting neurons cause an inevitable disadvantage of asynchronous brain dynamics compared to synchronous deep learning. However, this study demonstrates that this disadvantage can be converted into a computational advantage using a network with a single output and M multiple delays between successive layers, thereby generating a polynomial time-series outputs with M. The proposed role of delay in brain dynamics (RoDiB) model, is capable of learning increasing number of classified labels using a fixed architecture, and overcomes the inflexibility of the brain to update the learning architecture using additional neurons and connections. Moreover, the achievable accuracies of the RoDiB system are comparable with those of its counterpart tunable single delay architectures with M outputs. Further, the accuracies are significantly enhanced when the number of output labels exceeds its fully connected input size. The results are mainly obtained using simulations of VGG-6 on CIFAR datasets and also include multiple label inputs. However, currently only a small fraction of the abundant number of RoDiB outputs is utilized, thereby suggesting its potential for advanced computational power yet to be discovered.
延迟在大脑动力学中的作用
与同步深度学习相比,连接神经元之间延迟的显著变化导致异步大脑动力学不可避免地存在劣势。然而,本研究证明,利用具有单个输出和连续层之间 M 个多重延迟的网络,可以将这一劣势转化为计算优势,从而生成具有 M 个多项式时间序列输出的网络。此外,RoDiB 系统可达到的准确度可与具有 M 个输出的可调单延迟架构相媲美。此外,当输出标签的数量超过完全连接的输入规模时,系统的准确度会显著提高。这些结果主要是通过模拟 CIFAR 数据集上的 VGG-6 获得的,也包括多标签输入。不过,目前只利用了 RoDiB 大量输出中的一小部分,这表明其高级计算能力的潜力还有待发掘。
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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来源期刊
CiteScore
7.20
自引率
9.10%
发文量
852
审稿时长
6.6 months
期刊介绍: Physica A: Statistical Mechanics and its Applications Recognized by the European Physical Society Physica A publishes research in the field of statistical mechanics and its applications. Statistical mechanics sets out to explain the behaviour of macroscopic systems by studying the statistical properties of their microscopic constituents. Applications of the techniques of statistical mechanics are widespread, and include: applications to physical systems such as solids, liquids and gases; applications to chemical and biological systems (colloids, interfaces, complex fluids, polymers and biopolymers, cell physics); and other interdisciplinary applications to for instance biological, economical and sociological systems.
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