Ichiro Fujita
Affiliations: | Osaka University, Toyonaka-shi, Ōsaka-fu, Japan |
Area:
cognitive visual neurosciWebsite:
http://www2.bpe.es.osaka-u.ac.jp/index_e.htmlGoogle:
"Ichiro Fujita"Mean distance: 12.55 (cluster 17) | S | N | B | C | P |
Parents
Sign in to add mentor| Mark Konishi | post-doc | 1987-1989 | Caltech |
| Keiji Tanaka | research scientist | 1989-1992 | RIKEN BSI |
Children
Sign in to add trainee| Mikio Inagaki | grad student | ||
| Yoshiya Mori | grad student | Osaka University | |
| Hiroki Tanaka | grad student | Osaka University | |
| Masayuki Watanabe | grad student | Queens University | |
| Wang Yi | grad student | Osaka Univ | |
| Yusuke Murayama | grad student | 1994-1999 | Osaka University |
| Hisashi Tanigawa | grad student | 1994-2002 | Osaka University |
| Seiji Tanabe | grad student | 2000-2005 | Osaka University |
| Takahiro Doi | grad student | 2004-2009 | Osaka University |
| Ryosuke F Takeuchi | grad student | 2012-2018 | Osaka University |
| Keisuke Kawasaki | post-doc | Osaka University | |
| Shunta Tate | post-doc | Osaka University | |
| Takanori Uka | post-doc | 1994-2000 | Osaka University |
| Takahiro Doi | post-doc | 2009-2011 | Osaka University |
| Hiroshi Tamura | research scientist | Osaka University | |
| Hiroyuki Yoneshima | research scientist | Osaka University |
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Publications
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| Kimura K, Nagai Y, Hatanaka G, et al. (2023) A mosaic adeno-associated virus vector as a versatile tool that exhibits high levels of transgene expression and neuron specificity in primate brain. Nature Communications. 14: 4762 |
| Lim C, Inagaki M, Shinozaki T, et al. (2023) Analysis of convolutional neural networks reveals the computational properties essential for subcortical processing of facial expression. Scientific Reports. 13: 10908 |
| Inagaki M, Ito T, Shinozaki T, et al. (2022) Convolutional neural networks reveal differences in action units of facial expressions between face image databases developed in different countries. Frontiers in Psychology. 13: 988302 |
| Ito J, Joana C, Yamane Y, et al. (2022) Latency shortening with enhanced sparseness and responsiveness in V1 during active visual sensing. Scientific Reports. 12: 6021 |
| Inagaki M, Inoue KI, Tanabe S, et al. (2022) Rapid processing of threatening faces in the amygdala of nonhuman primates: subcortical inputs and dual roles. Cerebral Cortex (New York, N.Y. : 1991) |
| Hatanaka G, Inagaki M, Takeuchi RF, et al. (2022) Processing of visual statistics of naturalistic videos in macaque visual areas V1 and V4. Brain Structure & Function. 227: 1385-1403 |
| Yoshioka TW, Doi T, Abdolrahmani M, et al. (2021) Specialized contributions of mid-tier stages of dorsal and ventral pathways to stereoscopic processing in macaque. Elife. 10 |
| Okada KI, Miura K, Fujimoto M, et al. (2021) Impaired inhibition of return during free-viewing behaviour in patients with schizophrenia. Scientific Reports. 11: 3237 |
| Oishi H, Takemura H, Aoki SC, et al. (2018) Microstructural properties of the vertical occipital fasciculus explain the variability in human stereoacuity. Proceedings of the National Academy of Sciences of the United States of America |
| Doi T, Abdolrahmani M, Fujita I. (2018) Spatial pooling inherent to intrinsic signal optical imaging might cause V2 to resemble a solution to the stereo correspondence problem. Proceedings of the National Academy of Sciences of the United States of America |