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W3048143462 startingPage "e1007659" @default.
W3048143462 abstract "The brain consists of many interconnected networks with time-varying, partially autonomous activity. There are multiple sources of noise and variation yet activity has to eventually converge to a stable, reproducible state (or sequence of states) for its computations to make sense. We approached this problem from a control-theory perspective by applying contraction analysis to recurrent neural networks. This allowed us to find mechanisms for achieving stability in multiple connected networks with biologically realistic dynamics, including synaptic plasticity and time-varying inputs. These mechanisms included inhibitory Hebbian plasticity, excitatory anti-Hebbian plasticity, synaptic sparsity and excitatory-inhibitory balance. Our findings shed light on how stable computations might be achieved despite biological complexity. Crucially, our analysis is not limited to analyzing the stability of fixed geometric objects in state space (e.g points, lines, planes), but rather the stability of state trajectories which may be complex and time-varying." @default.
W3048143462 created "2020-08-13" @default.
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W3048143462 date "2020-08-07" @default.
W3048143462 modified "2023-10-17" @default.
W3048143462 title "Achieving stable dynamics in neural circuits" @default.
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W3048143462 doi "https://doi.org/10.1371/journal.pcbi.1007659" @default.
W3048143462 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7446801" @default.
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