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Nishino, Ko - Department of Computer Science, Drexel University
Scale-Dependent/Invariant Local 3D Shape Descriptors for Fully Automatic Registration of
Scale-Dependent 3D Geometric Features John Novatnack Ko Nishino
Technical Report DU-CS-10-06 Department of Computer Science, Drexel University
Directional Statistics BRDF Model Department of Computer Science, Drexel University
Technical Report DU-CS-10-05 Department of Computer Science, Drexel University
Mixture of Spherical Distributions for Single-View Relighting
Tracking with Local Spatio-Temporal Motion Patterns in Extremely Crowded Scenes
Variational estimation of inhomogeneous specular reflectance
Directional statistics-based reflectance model for isotropic bidirectional
The World in an Eye Ko Nishino Shree K. Nayar
Eigen-Texture Method : Appearance Compression based on 3D Model
Foundations and Trends R Computer Graphics and Vision
Light Source Position and Reflectance Estimation from a Single View without the
Color constancy through inverse-intensity chromaticity space
Multiple Light Sources and Reflectance Property Estimation based on a Mixture of Spherical Distributions
Illumination and Spatially Varying Specular Reflectance from a Single View Department of Visual Communication Design
Illumination Chromaticity Estimation using Inverse-Intensity Chromaticity Space
Adaptively Merging Large-Scale Range Data with Reflectance Properties
International Journal of Computer Vision 75(1), 189208, 2007 c 2007 Springer Science + Business Media, LLC. Manufactured in the United States.
Appearance Compression and Synthesis based on 3D Model for Mixed Reality
Scale-Hierarchical 3D Object Recognition in Cluttered Scenes Prabin Bariya Ko Nishino
Anomaly Detection in Extremely Crowded Scenes Using Spatio-Temporal Motion Pattern Models
Re-rendering from a Dense/Sparse Set of Images
PHOTOMETRIC OBJECT MODELING RENDERING FROM A DENSE/SPARSE SET OF IMAGES
Illumination Normalization with Time-dependent Intrinsic Images for Video Surveillance
Eigen-Texture Method: Appearance Compression and Synthesis
Membrane Nonrigid Image Registration Geoffrey Oxholm and Ko Nishino
Illumination Normalization with Time-Dependent Intrinsic Images
Separating Reflection Components Based on Chromaticity and Noise Analysis
Determining Reflectance Parameters and Illumination Distribution from a Sparse Set of Images for View-dependent Image Synthesis
ACCV2002: The 5th Asian Conference on Computer Vision, 2325 January 2002, Melbourne, Australia Robust Simultaneous Registration of Multiple Range Images
