Emergent Inference of Hidden Markov Models in Spiking Neural Networks Through Winner-Take-All

Zhaofei Yu; Shangqi Guo; Fei Deng; Qi Yan; Keke Huang; Jian K. Liu; Feng Chen

doi:10.1109/TCYB.2018.2871144

Emergent Inference of Hidden Markov Models in Spiking Neural Networks Through Winner-Take-All

Zhaofei Yu, Shangqi Guo, Fei Deng, Qi Yan, Keke Huang, Jian K. Liu, Feng Chen

Institute of Theoretical Computer Science (7080)

Research output: Contribution to journal › Article › peer-review

Abstract

Hidden Markov models (HMMs) underpin the solution to many problems in computational neuroscience. However, it is still unclear how to implement inference of HMMs with a network of neurons in the brain. The existing methods suffer from the problem of being nonspiking and inaccurate. Here, we build a precise equivalence between the inference equation of HMMs with time-invariant hidden variables and the dynamics of spiking winner-take-all (WTA) neural networks. We show that the membrane potential of each spiking neuron in the WTA circuit encodes the logarithm of the posterior probability of the hidden variable in each state, and the firing rate of each neuron is proportional to the posterior probability of the HMMs. We prove that the time course of the neural firing rate can implement posterior inference of HMMs. Theoretical analysis and experimental results show that the proposed WTA circuit can get accurate inference results of HMMs.

Original language	English
Pages (from-to)	1347-1354
Journal	IEEE Transactions on Cybernetics
Volume	50
Issue number	3
DOIs	https://doi.org/10.1109/TCYB.2018.2871144
Publication status	Published - 2020

Keywords

Biological neural networks
Brain modeling
Cybernetics
Hidden Markov models
Hidden Markov models (HMMs)
Markov processes
Mathematical model
neural implementation
Neurons
posterior inference
spiking neural network
winner-take-all (WTA) circuits

ASJC Scopus subject areas

Software
Control and Systems Engineering
Information Systems
Human-Computer Interaction
Computer Science Applications
Electrical and Electronic Engineering

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10.1109/TCYB.2018.2871144

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title = "Emergent Inference of Hidden Markov Models in Spiking Neural Networks Through Winner-Take-All",

abstract = "Hidden Markov models (HMMs) underpin the solution to many problems in computational neuroscience. However, it is still unclear how to implement inference of HMMs with a network of neurons in the brain. The existing methods suffer from the problem of being nonspiking and inaccurate. Here, we build a precise equivalence between the inference equation of HMMs with time-invariant hidden variables and the dynamics of spiking winner-take-all (WTA) neural networks. We show that the membrane potential of each spiking neuron in the WTA circuit encodes the logarithm of the posterior probability of the hidden variable in each state, and the firing rate of each neuron is proportional to the posterior probability of the HMMs. We prove that the time course of the neural firing rate can implement posterior inference of HMMs. Theoretical analysis and experimental results show that the proposed WTA circuit can get accurate inference results of HMMs.",

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author = "Zhaofei Yu and Shangqi Guo and Fei Deng and Qi Yan and Keke Huang and Liu, {Jian K.} and Feng Chen",

year = "2020",

doi = "10.1109/TCYB.2018.2871144",

language = "English",

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AU - Yu, Zhaofei

AU - Guo, Shangqi

AU - Deng, Fei

AU - Yan, Qi

AU - Huang, Keke

AU - Liu, Jian K.

AU - Chen, Feng

PY - 2020

Y1 - 2020

N2 - Hidden Markov models (HMMs) underpin the solution to many problems in computational neuroscience. However, it is still unclear how to implement inference of HMMs with a network of neurons in the brain. The existing methods suffer from the problem of being nonspiking and inaccurate. Here, we build a precise equivalence between the inference equation of HMMs with time-invariant hidden variables and the dynamics of spiking winner-take-all (WTA) neural networks. We show that the membrane potential of each spiking neuron in the WTA circuit encodes the logarithm of the posterior probability of the hidden variable in each state, and the firing rate of each neuron is proportional to the posterior probability of the HMMs. We prove that the time course of the neural firing rate can implement posterior inference of HMMs. Theoretical analysis and experimental results show that the proposed WTA circuit can get accurate inference results of HMMs.

AB - Hidden Markov models (HMMs) underpin the solution to many problems in computational neuroscience. However, it is still unclear how to implement inference of HMMs with a network of neurons in the brain. The existing methods suffer from the problem of being nonspiking and inaccurate. Here, we build a precise equivalence between the inference equation of HMMs with time-invariant hidden variables and the dynamics of spiking winner-take-all (WTA) neural networks. We show that the membrane potential of each spiking neuron in the WTA circuit encodes the logarithm of the posterior probability of the hidden variable in each state, and the firing rate of each neuron is proportional to the posterior probability of the HMMs. We prove that the time course of the neural firing rate can implement posterior inference of HMMs. Theoretical analysis and experimental results show that the proposed WTA circuit can get accurate inference results of HMMs.

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KW - Brain modeling

KW - Cybernetics

KW - Hidden Markov models

KW - Hidden Markov models (HMMs)

KW - Markov processes

KW - Mathematical model

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KW - Neurons

KW - posterior inference

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Emergent Inference of Hidden Markov Models in Spiking Neural Networks Through Winner-Take-All

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Keywords

ASJC Scopus subject areas

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