突触可塑性规范模型的基本要求

IF 2.7 4区计算机科学 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Neural Computation Pub Date : 2024-06-07 DOI:10.1162/neco_a_01671

Colin Bredenberg;Cristina Savin

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引用次数: 0

摘要

突触可塑性的规范模型利用计算原理来预测行为和网络层面的适应现象。近年来，这一领域的理论研究激增，但实验证实仍然有限。在这篇综述中，我们将从一系列必要条件的角度对规范可塑性模型的研究工作进行梳理，这些必要条件一旦得到满足，就能确保特定模型能够证明可塑性与适应性行为之间的明确联系，与神经可塑性的已知生物学证据相一致，并产生具体的可检验预测。作为原型，我们对 REINFORCE 算法进行了详细分析。我们还讨论了新模型如何开始改进已确定的标准，并提出了进一步发展的途径。总之，我们提供了一个概念指南，以帮助开发精确、强大和可实验检验的神经学习理论。

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Desiderata for Normative Models of Synaptic Plasticity

Normative models of synaptic plasticity use computational rationales to arrive at predictions of behavioral and network-level adaptive phenomena. In recent years, there has been an explosion of theoretical work in this realm, but experimental confirmation remains limited. In this review, we organize work on normative plasticity models in terms of a set of desiderata that, when satisfied, are designed to ensure that a given model demonstrates a clear link between plasticity and adaptive behavior, is consistent with known biological evidence about neural plasticity and yields specific testable predictions. As a prototype, we include a detailed analysis of the REINFORCE algorithm. We also discuss how new models have begun to improve on the identified criteria and suggest avenues for further development. Overall, we provide a conceptual guide to help develop neural learning theories that are precise, powerful, and experimentally testable.

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来源期刊

Neural Computation 工程技术-计算机：人工智能

CiteScore

6.30

自引率

3.40%

发文量

审稿时长

3.0 months

期刊介绍： Neural Computation is uniquely positioned at the crossroads between neuroscience and TMCS and welcomes the submission of original papers from all areas of TMCS, including: Advanced experimental design; Analysis of chemical sensor data; Connectomic reconstructions; Analysis of multielectrode and optical recordings; Genetic data for cell identity; Analysis of behavioral data; Multiscale models; Analysis of molecular mechanisms; Neuroinformatics; Analysis of brain imaging data; Neuromorphic engineering; Principles of neural coding, computation, circuit dynamics, and plasticity; Theories of brain function.