28 (j12). Tanaka H. Sawada R. Dynamics and Mechanisms of Contrast-Dependent Modulation of Spatial-Frequency Tuning in the Early Visual Cortex. Journal of Neuroscience, 42 (37) 7047-7059 (2022) link to J.Neuroscience
27 田中宏喜「カンデル神経科学(第2版)」21章翻訳. 原著 Principles of Neural Science 6th Ed.
26(j11). Tanaka H. Ohzawa I. Local organization of spatial frequency tuning dynamics in the cat primary visual cortex. Journal of Neurophysiology 124: 178-191 (2020) abstract and free article link
25. Mori M, Tanaka H. Evaluation of the visualization techniques providing explanations for decisions of convolutional neural networks. IEICE, vol. 119, no. 328, NC2019-50, pp. 85-88. (2019)
24. Mototani K, Mori M, Tanaka H. Rotation invariance of the convolutional neural network in response to object images. IEICE vol. 118, no. 322 p23-25. (2018)
23. Mototani K, MOri M .Tanaka H. Improvement of rotation-invariant object recognition of the CNN via data augmentation and analysis of its mechanism. IEICE, vol. 117, no. 508, NC2017-95, pp. 163-168. (2018)
21. Shimizu, Inoue, Tanaka H. Dynamics of spatial frequency tunings of V1 neurons and its laminar structures IEICE, vol. 116, no. 265, NC2016-18, pp. 13-18. (2016)
20. Shibata K and Tanaka H. Classification of binocular disparities of a three-layered neural network with inputs of hybrid-type disparity detectors. IEICE vol 115, no.514, NC2015-89. pp. 113-117 (2016)
19 (j10). Sasaki K, Kimura R, Ninomiya T ,Tanaka H et al. Supranormal orientation selectivity of visual neurons in orientation-restricted animals. Sci Rep. 5:16712- (2015)
17. Tanaka H, Tamura H, Ohzawa I. Spatial structures of neuronal synchronization in the cat area 17 and 18.
IEICE, vol. 115, no. 111, NC2015-1, pp. 21-26. (2015)
16. Hayashida Y, Takeuchi K, Ishikawa N, Okazaki Y, Tamas F, Tanaka H, Yagi T.Voltage-sensitive dye imaging of the visual cortices responding to electrical pulses at different intervals in mice in vivo. 2014 36th Annual International Conference of the IEEE Engineering in Medicine and Biology Society(IEEE EMBC) page 402-405.
15 (j9). Tanaka H, Tamura H and Ohzawa I. Spatial range and laminar structures of neuronal correlations in the cat primary visual cortex. Journal of Neurophysiology 112(3): 705-718 (2014)
9 (j8). Tanaka H. and Ohzawa I
Surround suppression of V1 neurons mediates orientation-based representation of high-order visual features.
Journal of Neurophysiology 101: 1444-1462 (2009)
8 (j7). Tanaka H. and Ohzawa I
Neural basis for stereopsis from second-order contrast cues.
Journal of Neuroscience. 19: 4370-82 (2006)
7 (j6). Yoshiyama K, Uka T, Tanaka H, and Fujita I.
Clustering of binocular disparity selective neurons in monkey inferior temoral cortex.
Neuroscience Research 48: 155-167 (2004)
6 (j5). Watanabe M, Tanaka H, Uka T, and Fujita I.
Disparity-selective neurons in area V4 of macaque monkeys.
Journal of Neurophysiology 87: 1960-1973 (2002)
5 (j4). Tanaka H, Uka T, Yoshiyama K, Kato M and Fujita, I.
Processing of shape defined by disparity in inferior temporal cortex.
Journal of Neurophyiology 85:735-744 (2001)
3 (j3). Uka T, Tanaka H, Yoshiyama K, Kato M and Fujita I.
Disparity Selectivity of Neurons in Inferior Temporal cortex. Journal of Neurophysiology 84: 120-132 (2000)
2 (j2). Uka T, Tanaka H, Kato M. and Fujita I.
Behavioral evidence for visual perception of 3-dimensional surface structures. Vision Research 39:2399-2410 (1999)
1 (j1). Shimura T, Tanaka H, and Yamamoto T.
Salient responsiveness of parabrachial neurons to the conditioned stimulus after the acquisition of taste aversion learning in rats. Neuroscience 28: 281-284. (1997)