Natural-gradient learning for spiking neurons.

Kreutzer, Elena; Senn, Walter; Petrovici, Mihai A (2022). Natural-gradient learning for spiking neurons. eLife, 11 eLife Sciences Publications 10.7554/eLife.66526

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In many normative theories of synaptic plasticity, weight updates implicitly depend on the chosen parametrization of the weights. This problem relates, for example, to neuronal morphology: synapses which are functionally equivalent in terms of their impact on somatic firing can differ substantially in spine size due to their different positions along the dendritic tree. Classical theories based on Euclidean-gradient descent can easily lead to inconsistencies due to such parametrization dependence. The issues are solved in the framework of Riemannian geometry, in which we propose that plasticity instead follows natural-gradient descent. Under this hypothesis, we derive a synaptic learning rule for spiking neurons that couples functional efficiency with the explanation of several well-documented biological phenomena such as dendritic democracy, multiplicative scaling, and heterosynaptic plasticity. We therefore suggest that in its search for functional synaptic plasticity, evolution might have come up with its own version of natural-gradient descent.

Item Type:

Journal Article (Review Article)

Division/Institute:

04 Faculty of Medicine > Pre-clinic Human Medicine > Institute of Physiology

UniBE Contributor:

Kreutzer, Elena, Senn, Walter, Petrovici, Mihai Alexandru

Subjects:

600 Technology > 610 Medicine & health
100 Philosophy > 150 Psychology

ISSN:

2050-084X

Publisher:

eLife Sciences Publications

Language:

English

Submitter:

Pubmed Import

Date Deposited:

26 Apr 2022 10:10

Last Modified:

05 Dec 2022 16:19

Publisher DOI:

10.7554/eLife.66526

PubMed ID:

35467527

Uncontrolled Keywords:

computational biology dendritic learning efficient learning homeostasis natural-gradient descent neuroscience none parametrization invariance synaptic plasticity systems biology

BORIS DOI:

10.48350/169511

URI:

https://boris.unibe.ch/id/eprint/169511

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