2007 |
26 | EE | Mitsuya Soga,
Yoshiki Kashimori:
Neural Mechanism for Extracting Object Features Critical for Visual Categorization Task.
ICONIP (1) 2007: 27-36 |
25 | EE | Kazuhisa Fujita,
Yoshiki Kashimori,
Takeshi Kambara:
Spatiotemporal burst coding for extracting features of spatiotemporally varying stimuli.
Biological Cybernetics 97(4): 293-305 (2007) |
24 | EE | Yoshiki Kashimori,
Yu Ichinose,
Kazuhisa Fujita:
A functional role of interaction between IT cortex and PF cortex in visual categorization task.
Neurocomputing 70(10-12): 1813-1818 (2007) |
2006 |
23 | EE | Hidetaka Morisawa,
Daisuke Hirayama,
Kazuhisa Fujita,
Yoshiki Kashimori,
Takeshi Kambara:
Binding Mechanism of Frequency-Specific ITD and IID Information in Sound Localization of Barn Owl.
ICONIP (1) 2006: 255-262 |
22 | EE | Seiichi Hirooka,
Kazuhisa Fujita,
Yoshiki Kashimori:
Effect of Feedback Signals on Tuning Shifts of Subcortical Neurons in Echolocation of Bat.
ICONIP (1) 2006: 263-271 |
21 | EE | Kazuhisa Fujita,
Yoshiki Kashimori:
Population coding of electrosensory stimulus in receptor network.
Neurocomputing 69(10-12): 1206-1210 (2006) |
2005 |
20 | EE | Yoshiki Kashimori,
Nobuyuki Suzuki,
Kazuhisa Fujita,
Meihong Zheng,
Takeshi Kambara:
A functional role of multiple spatial resolution maps in form perception along the ventral visual pathway.
Neurocomputing 65-66: 219-228 (2005) |
19 | EE | Kazuhisa Fujita,
Yoshiki Kashimori,
Takeshi Kambara:
Dynamic population coding for detecting the distance and size of an object in electrolocation.
Neurocomputing 65-66: 243-251 (2005) |
2004 |
18 | EE | Kazuhisa Fujita,
ShungQuang Huang,
Yoshiki Kashimori,
Takeshi Kambara:
Neural Mechanism of Binding ITD Information with IID One for Generating Brain Map of Sound Localization.
ICONIP 2004: 44-49 |
17 | EE | Kazuhisa Fujita,
Eigo Kamata,
Satoru Inoue,
Yoshiki Kashimori,
Takeshi Kambara:
A Functional Role of FM Sweep Rate of Biosonar in Echolocation of Bat.
ICONIP 2004: 78-83 |
2001 |
16 | EE | Yoshiki Kashimori,
Satoru Inoue,
Takeshi Kambara:
A neural mechanism of hyperaccurate detection of phase advance and delay in the jamming avoidance response of weakly electric fish.
Biological Cybernetics 85(2): 117-131 (2001) |
15 | | Osamu Hoshino,
Satoru Inoue,
Yoshiki Kashimori,
Takeshi Kambara:
A Hierarchical Dynamical Map as a Basic Frame for Cortical Mapping and Its Application to Priming.
Neural Computation 13(8): 1781-1810 (2001) |
14 | EE | Satoru Inoue,
Yoshiki Kashimori,
Yin Yang,
Haoling Liu,
Osamu Hoshino,
Takeshi Kambara:
Neural processes of self-organization of control system for foraging trips of honeybees.
Neurocomputing 38-40: 1325-1334 (2001) |
13 | EE | Yoshiki Kashimori,
Satoru Inoue,
Takeshi Kambara:
A role of synchronous firing of sensory-motor interface induced by noise in sign selective process generating jamming avoidance response.
Neurocomputing 38-40: 1341-1348 (2001) |
12 | EE | Yoshiki Kashimori,
Masanori Minagawa,
Satoru Inoue,
Osamu Hoshino,
Takeshi Kambara:
A neural model of electrosensory system making electrolocation of weakly electric fish.
Neurocomputing 38-40: 1349-1357 (2001) |
11 | EE | Satoru Inoue,
Takafumi Yoshizawa,
Yoshiki Kashimori,
Takeshi Kambara:
An essential role of random arrangement of coincidence detection neurons in hyperaccurate sound location of owl.
Neurocomputing 38-40: 675-682 (2001) |
10 | EE | Yoshiki Kashimori,
Satoru Inoue,
Takeshi Kambara,
Minoru Uchiyama:
A neural model of amygdala playing an essential role in formation of brain maps for accomplishing spatial tasks.
Neurocomputing 38-40: 705-712 (2001) |
2000 |
9 | EE | Osamu Hoshino,
Satoru Inoue,
Yoshiki Kashimori,
Takeshi Kambara:
A role of a hierarchical dynamical map in cognition and binding different sensory modalities.
Neurocomputing 32-33: 809-816 (2000) |
8 | EE | Satoru Inoue,
Manabu Kimyou,
Yoshiki Kashimori,
Osamu Hoshino,
Takeshi Kambara:
A neural model of medial geniculate body and auditory cortex detecting target distance independently of target velocity in echolocation.
Neurocomputing 32-33: 833-841 (2000) |
7 | EE | Yoshiki Kashimori,
Osamu Hoshino,
Takeshi Kambara:
A positive role of noises in accurate detection of time difference by electrosensory system of weakly electric fish.
Neurocomputing 32-33: 855-862 (2000) |
6 | EE | Yoshiki Kashimori,
Takeshi Kambara:
A role of synaptic variation depending on precise timings of pre- and postsynaptic depolarization in suppression of disturbance due to tail bending for accurate electrolocation.
Neurocomputing 32-33: 863-869 (2000) |
1999 |
5 | EE | Satoru Inoue,
Yoshiki Kashimori,
Osamu Hoshino,
Takeshi Kambara:
The neural model of nucleus laminaris and integration layer accomplishing hyperacuity in sound location in the barn owl.
Neurocomputing 26-27: 395-401 (1999) |
4 | EE | Yoshiki Kashimori,
Osamu Hoshino,
Takeshi Kambara:
A neural mechanism of AM frequency selectivity of pyramidal cell circuit in electrosensory lateral-line lobe of weakly electric fish.
Neurocomputing 26-27: 403-409 (1999) |
3 | EE | Osamu Hoshino,
Yoshiki Kashimori,
Takeshi Kambara:
A neural mechanism of feature binding based on the dynamical map theory in distributed coding scheme.
Neurocomputing 26-27: 729-734 (1999) |
2 | EE | Yoshiki Kashimori,
Takeshi Kambara:
A neural mechanism of adaptive suppression of background signals arising from tail movements in the Gymnotid electrosensory system.
Neurocomputing 26-27: 761-767 (1999) |
1997 |
1 | EE | Osamu Hoshino,
Noriaki Usuba,
Yoshiki Kashimori,
Takeshi Kambara:
Role of Itinerancy Among Attractors as Dynamical Map in Distributed Coding Scheme.
Neural Networks 10(8): 1375-1390 (1997) |