Presentation 1999/10/21
A simulation study of monkey VOR adaptation based on floccular hypothesis.
Hiromitsu Tabata, Kenji Yamamoto, Mitsuo Kawato,
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Abstract(in English) We already proposed a new VOR adaptation model based on Lisberger(1994). Our proposed model posseses the mechanism of maintaining target velocity in MT/MST, and can reproduce the VOR adaptation based on floccular hypothesis. But that simulation did not include the learning process in VOR adaptation. So, in this paper, we show that our model can also reproduce the VOR adaptation with a learning rule, even if we give only the initial synaptic weights of normal VOR gain.
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Keyword(in English) vestibuloocular reflex / cerebellum / adaptation / plasticity / computer simulation
Paper # NC99-47
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Committee NC
Conference Date 1999/10/21(1days)
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Registration To Neurocomputing (NC)
Language JPN
Title (in Japanese) (See Japanese page)
Sub Title (in Japanese) (See Japanese page)
Title (in English) A simulation study of monkey VOR adaptation based on floccular hypothesis.
Sub Title (in English)
Keyword(1) vestibuloocular reflex
Keyword(2) cerebellum
Keyword(3) adaptation
Keyword(4) plasticity
Keyword(5) computer simulation
1st Author's Name Hiromitsu Tabata
1st Author's Affiliation Nara Institute of Science and Technology:ATR Human Information Processing Research Laboratory()
2nd Author's Name Kenji Yamamoto
2nd Author's Affiliation ATR Human Information Processing Research Laboratory
3rd Author's Name Mitsuo Kawato
3rd Author's Affiliation ATR Human Information Processing Research Laboratory
Date 1999/10/21
Paper # NC99-47
Volume (vol) vol.99
Number (no) 382
Page pp.pp.-
#Pages 8
Date of Issue