Hiroshi Tamura

Osaka University

H-index: 23

Asia-Japan

About Hiroshi Tamura

Hiroshi Tamura, With an exceptional h-index of 23 and a recent h-index of 11 (since 2020), a distinguished researcher at Osaka University, specializes in the field of Neuroscience, Vision, Object Recognition, Cerebral Cortex, Electrophysiology.

His recent articles reflect a diverse array of research interests and contributions to the field:

An analysis of information segregation in parallel streams of a multi-stream convolutional neural network.

Neuronal population activity in macaque visual cortices dynamically changes through repeated fixations in active free viewing

Spontaneous segregation of visual information between parallel streams of a multi-stream convolutional neural network

Correlation between neural responses and human perception in figure-ground segregation

Latency shortening with enhanced sparseness and responsiveness in V1 during active visual sensing

Analysis based on neural representation of natural object surfaces to elucidate the mechanisms of a trained AlexNet model

The Temporal Pattern of Spiking Activity of a Thalamic Neuron are Related to the Amplitude of the Cortical Local Field Potential

Correspondence between monkey visual cortices and layers of a saliency map model based on a deep convolutional neural network for representations of natural images

Hiroshi Tamura Information

University	Osaka University
Position	Associate Professor
Citations(all)	2434
Citations(since 2020)	529
Cited By	2062
hIndex(all)	23
hIndex(since 2020)	11
i10Index(all)	28
i10Index(since 2020)	14
Email	Access Email
University Profile Page	Osaka University
Google Scholar	View Google Scholar Profile

Hiroshi Tamura Skills & Research Interests

Neuroscience

Vision

Object Recognition

Cerebral Cortex

Electrophysiology

Top articles of Hiroshi Tamura

Title	Journal	Author(s)	Publication Date
An analysis of information segregation in parallel streams of a multi-stream convolutional neural network.	Scientific Reports	H. Tamura	2024/4/20
Neuronal population activity in macaque visual cortices dynamically changes through repeated fixations in active free viewing	Eneuro	Yukako Yamane Junji Ito Cristian Joana Ichiro Fujita Hiroshi Tamura ...	2023/10/1
Spontaneous segregation of visual information between parallel streams of a multi-stream convolutional neural network	arXiv	Hiroshi Tamura	2023/7/6
Correlation between neural responses and human perception in figure-ground segregation	Front. Syst. Neurosci	M Shishikura H Tamura K Sakai	2022
Latency shortening with enhanced sparseness and responsiveness in V1 during active visual sensing	Scientific reports	Junji Ito Cristian Joana Yukako Yamane Ichiro Fujita Hiroshi Tamura ...	2022/4/11
Analysis based on neural representation of natural object surfaces to elucidate the mechanisms of a trained AlexNet model	Frontiers in Computational Neuroscience	Nobuhiko Wagatsuma Akinori Hidaka Hiroshi Tamura	2022/9/30
The Temporal Pattern of Spiking Activity of a Thalamic Neuron are Related to the Amplitude of the Cortical Local Field Potential	bioRxiv	Hiroshi Tamura	2021/9/10
Correspondence between monkey visual cortices and layers of a saliency map model based on a deep convolutional neural network for representations of natural images	eNeuro	Nobuhiko Wagatsuma Akinori Hidaka Hiroshi Tamura	2020
Population coding of figure and ground in natural image patches by V4 neurons	PLoS ONE	Y Yamane A Kodama M Shishikura K Kimura H Tamura ...	2020
Deleting object selective units in a fully-connected layer of deep convolutional networks improves classification performance	arxiv	Yuta Kanda Kota Sasaki S Izumi Ohzawa Hiroshi Tamura	2020