Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
NC, MBE (Joint) |
2019-03-05 15:00 |
Tokyo |
University of Electro Communications |
On the spatiotemporal information contained in spike responses of mouse retina ganglion cells Yuki Kashiwagi, Koji Yamamoto, Tetsuya Yagi, Yuki Hayashida (Osaka Univ.) MBE2018-99 |
Information in the visual scene projected on the retina is encoded into the digital-like electrical signal called “spike... [more] |
MBE2018-99 pp.65-70 |
MBE, NC (Joint) |
2018-03-13 14:00 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
Analyses on the image extraction properties of the retinal ganglion cell spikes with a hardware model Koji Ishii, Hirotsugu Yamaguchi, Yuki Hayashida, Naofumi Suematsu, Tetsuya Yagi (Osaka Univ.) NC2017-84 |
In the retina, the visual information represented by light is first transduced to graded potential change in the photore... [more] |
NC2017-84 pp.97-102 |
MBE, NC, NLP (Joint) |
2018-01-27 10:55 |
Fukuoka |
Kyushu Institute of Technology |
Visual information encoding by high-frequency spike population in mouse retinal ganglion cells Hirotsugu Yamaguchi, Yuka Kudo, Koji Ishii, Yuki Hayashida, Tetsuya Yagi (Osaka Univ.) NC2017-60 |
It is well known that visual information is continuously transformed into spike discharges in ganglion cells in the reti... [more] |
NC2017-60 pp.59-64 |
MBE, NC (Joint) |
2017-10-07 10:20 |
Osaka |
Osaka Electro-Communication University |
Changes in light response characteristics of mouse retinal ganglion cells depending on background light Kenji Shiota, Yuki Naruto, Yuki Kashiwagi, Naofumi Suemats, Tetsuya Yagi, Yuki Hayashida (Osaka Univ.) MBE2017-43 |
In recent years, the mouse has attracted attention as an experimental animal for studying retinal neuronal circuits. An... [more] |
MBE2017-43 pp.11-16 |
MBE, BioX, NC |
2016-10-22 10:30 |
Osaka |
Osaka Electro-Communication University |
A simulation model of the neural image of the transient Off-α type ganglion cells in the mouse retina with convergent and divergent synaptic signaling Hirotsugu Yamaguchi, Yuka Kudo, Shuji Kitora, Shota Yamauchi, Yuki Hayashida, Tetsuya Yagi (Osaka Univ.) BioX2016-20 MBE2016-34 NC2016-19 |
Previous physiological experiments suggested that the transient Off- retinal ganglion cell in the mouse retina e... [more] |
BioX2016-20 MBE2016-34 NC2016-19 pp.19-24 |
MBE |
2015-01-22 16:05 |
Kumamoto |
Kumamoto University |
Experimental analyses on linear response characteristics of mouse retinal ganglion cells Yuki Naruto, Tetsuya Yagi, Yuki Hayashida (Osaka Univ.) MBE2014-104 |
The vertebrate retina processes visual information contained in the outside world image by the multi-channel parallel ne... [more] |
MBE2014-104 pp.53-58 |
MBE, NC (Joint) |
2014-10-18 14:25 |
Osaka |
Osaka Electro-Communication University |
Design of artificial neural system by using asynchronous bifurcation processor Masato Izawa (Osaka Univ.), Hiroyuki Torikai (Kyoto Sangyo Univ.) NC2014-21 |
The mammalian cochlear consists of highly nonlinear components: lymph (viscous fluid), a basilar membrane (vibrating mem... [more] |
NC2014-21 pp.1-6 |
NLP |
2014-01-22 11:20 |
Hokkaido |
Niseko Park Hotel |
An asynchronous cellular automaton model of a nonlinear auditory nervous system Masato Izawa (Osaka Univ.), Hiroyuki Torikai (Kyoto Sangyo Univ.) NLP2013-150 |
The mammalian cochlear consists of nonlinear compornents: lymph (fluid dynamics), basilar menbrane (vibrating membrane),... [more] |
NLP2013-150 pp.111-116 |
NLP |
2013-03-15 16:00 |
Chiba |
Nishi-Chiba campus, Chiba Univ. |
An asynchronous cellular automaton model of spiral ganglion cell Masato Izawa, Hiroyuki Torikai (Osaka Univ.) NLP2012-174 |
The mammalian ear is divided into the outer ear receiving a sound wave, the middle ear amplifying a sound wave and the i... [more] |
NLP2012-174 pp.159-164 |
MBE, NC (Joint) |
2013-03-13 14:10 |
Tokyo |
Tamagawa University |
Real time simulation of retinal ganglion cell response with FPGA Ryoya Ishida, Hyeongsung Cho, Jun Hasegawa, Hirotsugu Okuno, Yuki Hayashida, Tetsuya Yagi (Osaka Univ.) NC2012-148 |
The retinal neuronal circuit processes input image and sends the compressed information to the brain by the ganglion cel... [more] |
NC2012-148 pp.85-88 |
MBE, NC (Joint) |
2012-03-14 15:00 |
Tokyo |
Tamagawa University |
Real-time emulation of the retinal circuits responding selectively to moving objects during fixational eye movements. Yukihiro Yokoyama, Hirotsugu Okuno, Yuki Hayashida, Tetsuya Yagi (Osaka Univ.) NC2011-132 |
We have developed an emulator to reproduce neural activities in the retinal neural circuit that can detect a moving obje... [more] |
NC2011-132 pp.63-67 |
HIP |
2011-07-24 11:30 |
Toyama |
|
[Invited Talk]
Gene therapy for restoring vision
-- Use of genes derived from the green algae -- Hiroshi Tomita, Eriko Sugano, Hitomi Isago, Namie Murayama, Eri Koyanagi, Makoto Tamai (Tohoku Univ.) HIP2011-37 |
Channelrhodopsin-2, which is derived from the green alga Chlamydomonas reinhardtii, functions as a light-driven cation-s... [more] |
HIP2011-37 pp.47-50 |
NC, MBE (Joint) |
2009-12-11 17:00 |
Aichi |
|
On the estimating method of the information rates of retinal ganglion cells Hiroki Saito, Yoshimi Kamiyama (Aichi Prefectural Univ) NC2009-69 |
Mutual information is often used to quantify the response property of retinal ganglion cells to sensory inputs. To calcu... [more] |
NC2009-69 pp.37-42 |
NC, MBE (Joint) |
2009-12-11 17:25 |
Aichi |
|
Analysis of Spike Timing Characteristics in Retinal Ganglion Cell by the Stochastic Model Yuichiro Sakuragi, Yoshimi Kamiyama (Aichi Prefectural Univ.) NC2009-70 |
The retinal ganglion cells respond with reliable and precise spike
pattern to fluctuating inputs. It was suggested tha... [more] |
NC2009-70 pp.43-48 |
MBE |
2006-01-27 10:25 |
Kumamoto |
|
Application of the synaptic bouton preparation to rat retinal ganglion cells Tamami Motomura, Yuki Hayashida (Kumamoto Univ.), Norio Akaike (Kumamoto Health Science Univ.), Nobuki Murayama (Kumamoto Univ.) |
The vibrodissociation method has been applied to various CNS regions, yet never applied to vertebrate retinas. This stud... [more] |
MBE2005-108 pp.5-8 |