Ryohei Shibue scite author profile

Ryohei Shibue

5Publications

18Citation Statements Received

69Citation Statements Given

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Affiliations

NTT (Japan), The University of Tokyo, NTT Basic Research Laboratories

Publications

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Deconvolution of calcium imaging data using marked point processes

Shibue¹,

Komaki

2020

PLoS Comput Biol

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Calcium imaging has been widely used for measuring spiking activities of neurons. When using calcium imaging, we need to extract summarized information from the raw movie beforehand. Recent studies have used matrix deconvolution for this preprocessing. However, such an approach can neither directly estimate the generative mechanism of spike trains nor use stimulus information that has a strong influence on neural activities. Here, we propose a new deconvolution method for calcium imaging using marked point processes. We consider that the observed movie is generated from a probabilistic model with marked point processes as hidden variables, and we calculate the posterior of these variables using a variational inference approach. Our method can simultaneously estimate various kinds of information, such as cell shape, spike occurrence time, and tuning curve. We apply our method to simulated and experimental data to verify its performance.

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Firing rate estimation using infinite mixture models and its application to neural decoding

Shibue

Komaki

2017

Journal of Neurophysiology

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Neural decoding is a framework for reconstructing external stimuli from spike trains recorded by various neural recordings. Kloosterman et al. proposed a new decoding method using marked point processes (Kloosterman F, Layton SP, Chen Z, Wilson MA. 111: 217-227, 2014). This method does not require spike sorting and thereby improves decoding accuracy dramatically. In this method, they used kernel density estimation to estimate intensity functions of marked point processes. However, the use of kernel density estimation causes problems such as low decoding accuracy and high computational costs. To overcome these problems, we propose a new decoding method using infinite mixture models to estimate intensity. The proposed method improves decoding performance in terms of accuracy and computational speed. We apply the proposed method to simulation and experimental data to verify its performance. We propose a new neural decoding method using infinite mixture models and nonparametric Bayesian statistics. The proposed method improves decoding performance in terms of accuracy and computation speed. We have successfully applied the proposed method to position decoding from spike trains recorded in a rat hippocampus.

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Gaussian process with physical laws for 3D cardiac modeling

Nakano

Shibue

Kashino

et al. 2021

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Personal Heart Modeling Using Mobile Sensing

Kashino¹,

Shibue²,

Tsukada

2022

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Unsupervised Heart Sound Decomposition and State Estimation with Generative Oscillation Models

Shibue

Nakano

Iwata

et al. 2021

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Ryohei Shibue

Deconvolution of calcium imaging data using marked point processes

Firing rate estimation using infinite mixture models and its application to neural decoding

Gaussian process with physical laws for 3D cardiac modeling

Personal Heart Modeling Using Mobile Sensing

Unsupervised Heart Sound Decomposition and State Estimation with Generative Oscillation Models

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