Cortical Divisive Normalization from Wilson–Cowan Neural Dynamics

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-02-15 DOI:10.1007/s00332-023-10009-z
Jesús Malo, José Juan Esteve-Taboada, Marcelo Bertalmío
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Abstract

Divisive Normalization and the Wilson–Cowan equations are well-known influential models of nonlinear neural interaction (Carandini and Heeger in Nat Rev Neurosci 13(1):51, 2012; Wilson and Cowan in Kybernetik 13(2):55, 1973). However, they have been always treated as different approaches and have not been analytically related yet. In this work, we show that Divisive Normalization can be derived from the Wilson–Cowan dynamics. Specifically, assuming that Divisive Normalization is the steady state of the Wilson–Cowan differential equations, we find that the kernel that controls neural interactions in Divisive Normalization depends on the Wilson–Cowan kernel but also depends on the signal. A standard stability analysis of a Wilson–Cowan model with the parameters obtained from our relation shows that the Divisive Normalization solution is a stable node. This stability suggests the appropriateness of our steady state assumption. The proposed theory provides a mechanistic foundation for the suggestions that have been done on the need of signal-dependent Divisive Normalization in Coen-Cagli et al. (PLoS Comput Biol 8(3):e1002405, 2012). Moreover, this theory explains the modifications that had to be introduced ad hoc in Gaussian kernels of Divisive Normalization in Martinez-Garcia et al. (Front Neurosci 13:8, 2019) to reproduce contrast responses in V1 cortex. Finally, the derived relation implies that the Wilson–Cowan dynamics also reproduce visual masking and subjective image distortion, which up to now had been explained mainly via Divisive Normalization.

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从威尔逊-考文神经动力学看皮层分裂归一化问题
分裂归一化和威尔逊-考恩方程是众所周知的有影响力的非线性神经相互作用模型(Carandini 和 Heeger 发表于 Nat Rev Neurosci 13(1):51, 2012;Wilson 和 Cowan 发表于 Kybernetik 13(2):55, 1973)。然而,它们一直被视为不同的方法,尚未在分析上产生关联。在这项工作中,我们证明了分割归一化可以从威尔逊-考恩动力学中推导出来。具体来说,假设分裂归一化是威尔逊-考文微分方程的稳定状态,我们发现分裂归一化中控制神经交互的核不仅取决于威尔逊-考文核,还取决于信号。利用从我们的关系中获得的参数对威尔逊-科文模型进行的标准稳定性分析表明,分裂归一化解是一个稳定的节点。这种稳定性表明我们的稳态假设是恰当的。Coen-Cagli 等人(《PLoS Comput Biol》8(3):e1002405, 2012)就信号依赖性分裂归一化的必要性提出了建议,所提出的理论为这些建议提供了机理基础。此外,这一理论还解释了马丁内斯-加西亚等人(Front Neurosci 13:8, 2019)为重现V1皮层的对比度反应而不得不在高斯核的除法归一化中临时引入的修改。最后,推导出的关系意味着威尔逊-考恩动力学还能再现视觉遮蔽和主观图像失真,而到目前为止,这些问题主要是通过除法归一化来解释的。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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