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Kô Sakai
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2020 – today
- 2025
- [j21]Motofumi Shishikura, Itsuki Machida, Hiroshi Tamura, Kô Sakai:
Local contour features contribute to figure-ground segregation in monkey V4 neural populations and human perception. Neural Networks 181: 106821 (2025) - 2022
- [j20]Atsushi Kodama, Kouji Kimura, Kô Sakai:
Dimensionality of the intermediate-level representation of shape and texture in monkey V4. Neural Networks 153: 444-449 (2022) - 2021
- [c28]Itsuki Machida, Atsushi Kodama, Kouji Kimura, Motofumi Shishikura, Hiroshi Tamura, Kô Sakai:
Cortical Coding of Surface Textures and Contour Shapes in the Intermediate-Level Visual Area V4. ICONIP (6) 2021: 37-45 - 2020
- [j19]Nobuhiko Wagatsuma, Mika Urabe, Kô Sakai:
Perception and Saccades during Figure-Ground Segregation and Border-Ownership Discrimination in Natural Contours. IEICE Trans. Inf. Syst. 103-D(5): 1126-1134 (2020)
2010 – 2019
- 2019
- [j18]Kouji Kimura, Yukako Yamane, Hiroshi Tamura, Kô Sakai:
Spatial Structure of Receptive Fields and Surrounds in Response to Local Figure-Ground Configuration in Monkey V4. Aust. J. Intell. Inf. Process. Syst. 17(2): 7-13 (2019) - 2018
- [j17]Kô Sakai, Yutaka Sato:
A Method for Constructing a Gray Map for a Group Based on Its Semidirect-product Structure. J. Inf. Process. 26: 345-349 (2018) - 2017
- [j16]Kô Sakai, Yutaka Sato:
A New Construction Method of Gray Maps for Groups and its Application to the Groups of Order 16. J. Inf. Process. 25: 741-744 (2017) - 2016
- [c27]Masaharu Hasuike, Yukako Yamane, Hiroshi Tamura, Kô Sakai:
Representation of Local Figure-Ground by a Group of V4 Cells. ICONIP (1) 2016: 131-137 - [c26]K. Kudou, Kô Sakai:
Perceptual Representation of Material Quality: Adaptation to BRDF-Morphing Images. ICONIP (4) 2016: 208-212 - [i1]Kô Sakai, Yutaka Sato:
Construction of Gray maps for groups of order 16. CoRR abs/1609.03690 (2016) - 2015
- [j15]Wei Qiu, Yasuhiro Hatori, Kô Sakai:
Neural construction of 3D medial axis from the binocular fusion of 2D MAs. Neurocomputing 149: 546-558 (2015) - [c25]Masaharu Hasuike, Shuto Ueno, Dai Minowa, Yukako Yamane, Hiroshi Tamura, Kô Sakai:
Figure-Ground Segregation by a Population of V4 Cells - A Computational Analysis on Distributed Representation. ICONIP (2) 2015: 617-622 - 2014
- [c24]Kô Sakai, Ken Kurematsu, Shouhei Matsuoka:
Perception of Symmetry in Natural Images - A Cortical Representation of Shape. ICONIP (3) 2014: 135-141 - 2013
- [c23]Yasuhiro Hatori, Tatsuroh Mashita, Kô Sakai:
Sparseness Controls the Receptive Field Characteristics of V4 Neurons: Generation of Curvature Selectivity in V4. ICANN 2013: 327-334 - [c22]Kô Sakai, Shunsuke Michii:
Latency Modulation of Border Ownership Selective Cells in V1-V2 Feed-Forward Model. ICONIP (3) 2013: 291-300 - 2012
- [j14]Kô Sakai, Haruka Nishimura, Ryohei Shimizu, Keiichi Kondo:
Consistent and robust determination of border ownership based on asymmetric surrounding contrast. Neural Networks 33: 257-274 (2012) - [c21]Yusuke Nakata, Kô Sakai:
Structures of Surround Modulation for the Border-Ownership Selectivity of V2 Cells. ICONIP (1) 2012: 383-391 - [c20]Yasuhiro Hatori, Kô Sakai:
Surface-Based Construction of Curvature Selectivity from the Integration of Local Orientations. ICONIP (3) 2012: 425-433 - 2011
- [j13]Yosuke Sato, Shutaro Inoue, Akira Suzuki, Katsusuke Nabeshima, Kô Sakai:
Boolean Gröbner bases. J. Symb. Comput. 46(5): 622-632 (2011) - [c19]Wei Qiu, Kô Sakai:
Medial Axis for 3D Shape Representation. ICONIP (1) 2011: 79-87 - 2010
- [c18]Nobuhiko Wagatsuma, Kô Sakai:
Roles of Early Vision for the Dynamics of Border-Ownership Selective Neurons. ICONIP (1) 2010: 99-106 - [c17]Keiichi Kondo, Kô Sakai:
Orientation Dependence of Surround Modulation in the Population Coding of Figure/Ground. ICONIP (2) 2010: 565-573
2000 – 2009
- 2008
- [c16]Yasuhiro Hatori, Kô Sakai:
Robust Detection of Medial-Axis by Onset Synchronization of Border-Ownership Selective Cells and Shape Reconstruction from Its Medial-Axis. ICONIP (1) 2008: 301-309 - 2007
- [j12]Kô Sakai, Shiori Katsumata:
Simultaneous determination of depth and motion in early vision. Neurocomputing 70(10-12): 1819-1823 (2007) - [j11]Haruka Nishimura, Kô Sakai:
The direction of figure is determined by asymmetric surrounding suppression/facilitation. Neurocomputing 70(10-12): 1920-1924 (2007) - [c15]Yasuhiro Hatori, Kô Sakai:
Representation of Medial Axis from Synchronous Firing of Border-Ownership Selective Cells. ICONIP (1) 2007: 18-26 - [c14]Nobuhiko Wagatsuma, Ryohei Shimizu, Kô Sakai:
Effect of Spatial Attention in Early Vision for the Modulation of the Perception of Border-Ownership. ICONIP (1) 2007: 348-357 - 2006
- [j10]Kô Sakai, Haruka Nishimura:
Surrounding Suppression and Facilitation in the Determination of Border Ownership. J. Cogn. Neurosci. 18(4): 562-579 (2006) - [c13]Nobuhiko Wagatsuma, Kô Sakai:
Spatial Attention in Early Vision Alternates Direction-of-Figure. ICONIP (1) 2006: 219-227 - 2005
- [j9]Haruka Nishimura, Kô Sakai:
The computational model for border-ownership determination consisting of surrounding suppression and facilitation in early vision. Neurocomputing 65-66: 77-83 (2005) - 2004
- [j8]Haruka Nishimura, Kô Sakai:
Determination of border ownership based on the surround context of contrast. Neurocomputing 58-60: 843-848 (2004) - 2003
- [j7]Kô Sakai:
Functional roles of receptive field structures in the perception of orientation. Neurocomputing 52-54: 141-149 (2003) - 2000
- [j6]Kô Sakai, Shigeru Tanaka:
Perceptual segmentation and neural grouping in tilt illusion. Neurocomputing 32-33: 979-986 (2000) - [c12]Kô Sakai:
A Network Mechanism for the Determination of Apparent Orientation. ICPR 2000: 3967-3970
1990 – 1999
- 1999
- [j5]Kô Sakai, Shigeru Tanaka:
Retinotopic coding and neural grouping in tilt illusion. Neurocomputing 26-27: 837-843 (1999) - [j4]Kô Sakai:
Network algorithm for shape-from-texture based on human visual psychophysics and computational analysis. Syst. Comput. Jpn. 30(5): 9-17 (1999) - [c11]Kô Sakai, S. Tanaka:
Analysis of spatial nonlinear responses in cortical complex cells. IJCNN 1999: 160-163 - 1998
- [c10]Kô Sakai, Shigeru Tanaka:
Perception of Global Orientation: Phychophysical and Computational Analysis on Tilt Illusion. ICONIP 1998: 827-830 - 1997
- [j3]Kô Sakai, Paul Sajda, Shih-Cheng Yen, Leif H. Finkel:
Coarse-grain parallel computing for very large scale neural simulations in the NEXUS simulation environment. Comput. Biol. Medicine 27(4): 257-266 (1997) - [c9]Kô Sakai, S. Tanaka:
A Cortical Mechanism Underlying the Perception of Bar Orientation in Tilt Illusions Based on Figure Segmentation and Population Coding. ICONIP (1) 1997: 93-96 - 1994
- [c8]Kô Sakai, Leif H. Finkel:
A shape-from-texture algorithm based on human visual psychophysics. CVPR 1994: 527-532 - 1993
- [c7]Kô Sakai, Leif H. Finkel:
A Network Mechanism for the Determination of Shape-from-Texture. NIPS 1993: 953-960 - 1991
- [c6]Satoshi Menju, Kô Sakai, Yosuke Sato, Akira Aiba:
A Study on Boolean Constraint Solvers. WCLP 1991: 253-267 - [p1]Akihiko Ohsuga, Kô Sakai:
Metis: A Term Rewriting System Generator: An Inference Engine for Equations and Inequations. Software Science and Engineering 1991: 1-15 - 1990
- [c5]Akihiko Ohsuga, Kô Sakai:
Complete Equational Unification Based on an Extension of the Knuth-Bendix Completion Procedure. IWWERT 1990: 197-209
1980 – 1989
- 1989
- [j2]Kô Sakai, Akira Aiba:
CAL: A Theoretical Background of Constraint Logic Programming and its Applications. J. Symb. Comput. 8(6): 589-603 (1989) - 1988
- [c4]Akira Aiba, Kô Sakai, Yosuke Sato, David J. Hawley, Ryuzo Hasegawa:
Constraints Logic Programming Language CAL. FGCS 1988: 263-276 - 1987
- [c3]Jieh Hsiang, Michaël Rusinowitch, Kô Sakai:
Complete Inference Rules for the Cancellation Laws. IJCAI 1987: 990-992 - 1984
- [c2]Shigeyuki Takagi, Toshio Yokoi, Shunichi Uchida, Toshiaki Kurokawa, Takashi Hattori, Takashi Chikayama, Kô Sakai, Junichiro Tsuji:
Overall design of SIMPOS. ICLP 1984: 1-12 - [c1]Kô Sakai, Taizo Miyachi:
Incorporating Naïve Negation into Prolog. RIMS Symposia on Software Science and Engineering 1984: 130-143 - 1980
- [j1]Masato Morisaki, Kô Sakai:
A Complete Axiom System for Rational Sets with Multiplicity. Theor. Comput. Sci. 11: 79-92 (1980)
Coauthor Index
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