SAKAI Ko

Researcher's full information

Refereed academic journal/Refereed international conference paper
  • Perception of depth and motion from ambiguous binocular information
    Sakai K; Ogiya M; Hirai Y
    VISION RESEARCH/45(19)/pp.2471-2480, 2005-09
    PubMed
  • A computational model for determining border-ownership consisting of surrounding suppression/facilitation
    H. Nishimura; K. Sakai
    Neurocomputing/65-66/p.77-83, 2005-01
  • Determination of border-ownership based on the surround context of contrast.
    H. Nishimura; K. Sakai
    Neurocomputing/58-60/p.843-848, 2004-01
  • Functional roles of receptive field structure in the perception of orientation.
    K. Sakai
    Neurocomputing/52-54/p.141-149, 2003-01
  • Neural grouping and geometric effect in the determination of apparent orientation
    K. Sakai; Y. Hirai
    Journal of the Optical Society of America. A, Optics, image science, and vision/19(6)/pp.1049-1062, 2002-01
    PubMed
  • Binocular depth of objects moving behid a slit --- Integration of motion and depth
    M. Ogiya; K. Sakai; Y. Hirai
    Proceedings of International Conference on Neural Information Processing (ICONIP) 2002/3/p.1231-1235, 2002-01
  • Spatial properties of cortical-cell receptive fields in the determination of apparent orientation.
    K. Sakai
    Proceedings of International Symposium on Measurement, Analysis, and Modeling of Human Functions (ISHF) 2001/p.21-25, 2001-01
  • A network mechanism for the determination of apparent tilt
    K. Sakai
    Proceedings of International Conference on Pattern Recognition (ICPR) 2000/3/p.967-970, 2000-01
  • Spatial pooling in the second-order structure of cortical complex cells-Computational analysis.
    K. Sakai; S. Tanaka
    Vision Research/40(7)/p.855-871, 2000-01
  • Neural coding of orientation information in early vision based on colinear synchronization.
    K. Sakai; S. Tanaka
    Proceedings of International Conference on Neural Information Processing(ICONIP)1999/I/p.320-325, 1999-01
  • A network mechanism for shape-from-texture based on human visual psychophysics and computational analysis.
    K. Sakai
    Systems and Computers in Japan/30(5)/p.9-17, 1999-01
  • Retinotopic coding and neural grouping in tilt illusion.
    K. Sakai; S. Tanaka
    Neurocomputing/26(1)/p.837-843, 1999-01
  • Perceptual segmentation and apparent tilt-Psychophysical and computational analyses of tilt illusion.
    K. Sakai
    Proceedings of IEEE Systems, Man, and Cybernetics 1999/1(II)/p.10-15, 1999-01
  • Computational mechanisms underlying the second-order structure of cortical complex cells.
    K. Sakai; S. Tanaka
    Computational Neuroscience : Trends in Research/Kluwer Academic Publishers/p.251-257, 1998-01
  • テクスチャから3次元奥行を求めるネットワークアルゴリズム…心理物理実験と計算論的解析
    酒井 宏
    電子通信情報学会論文集/J81-D-II/p.1375-1383, 1998-01
  • Perception of global orientation-Psychophysical and computational analysis on tilt illusion.
    K. Sakai; S. Tanaka
    Proceedings of International Conference on Neural Information Processing(ICONIP)1998/p.827-830, 1998-01
  • Coarse-grain parallel computing for very large scale neural simulattions in the NEXUS simulation environment.
    K. Sakai; P. Sajda; S-C Yen; L. H. Finkel
    Computers in Biology and Medicine/27(4)/p.257-266, 1997-01
  • A cortical mechanism underlying the perception of bar orientation in tilt illusions based on figure segmentation and population coding.
    K. Sakai; S. Tanaka
    Proceedings of International Conference on Neural Information Processing(ICONIP)1997/p.93-96, 1997-01
  • Spatial-frequency analysis in the perception of perspective depth.
    K. Sakai; L. H. Finkel
    Network : Computation in Neural Systems/8/p.335-352, 1997-01
  • Characterization of the spatial-frequency spectrum in the perception of shape from texture.
    K. Sakai; L. H. Finkel
    Journal of Optical Society of America, A/12(6)/p.1208-1224, 1995-01
  • A shape-from-texture algorithm based on human visual psychophysics.
    K. Sakai; L. H. Finkel
    Proceedings of IEEE Computer Vision and Pattern Recognition(CVPR)1994/p.527-532, 1994-01
  • A cortical mechanism for shape-from-texure based on dynamic changes in complex cell receptive fields.
    K. Sakai; L. H. Finkel
    Computation in Neurons and Neural Systems/Kluwer Academic Publishers/p.115-120, 1994-01
  • A network mechanism for the determination of shape from texture.
    K. Sakai; L. H. Finkel
    Advances in Neural Information Processing Systems/Morgan Kaumann Publishers/6/p.953-960, 1994-01
  • NEXUS : A tool for simulating large-scale hybrid neural networks.
    P. Sajda; K. Sakai; L. H. Finkel
    Proceedings of the Summer Computer Simulation Conference 1992/p.72-76, 1992-01
  • Texture discrimination and binding by a modified energy model.
    K. Sakai; P. Sajda; L. H. Finkel
    Proceedings of International Joint Conference on Neural Networks(IJCNN)1992/IV/p.780-785, 1992-01
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