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 Conference Papers (Available on Advance Programs)  (Sort by: Date Descending)
 Results 1 - 15 of 15  /   
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
 Results 1 - 15 of 15  /   
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