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ORCIDComputer Vision, A Reference Guide 2014
- Katsushi Ikeuchi:
Computer Vision, A Reference Guide. Springer 2014, ISBN 978-0-387-30771-8 - Action Prototype Trees. 1-5
- Action Recognition. 5
- Rui Shen, Gaopeng Gou, Irene Cheng, Anup Basu:
Active Calibration. 5 - Active Camera Calibration. 5
- Active Contours. 5
- James J. Clark:
Active Sensor (Eye) Movement Control. 5-8 - Andrew Hogue, Michael R. M. Jenkin:
Active Stereo Vision. 8-12 - Active Vision. 13
- Activity Analysis. 13
- Wanqing Li, Zicheng Liu, Zhengyou Zhang:
Activity Recognition. 13-16 - Paolo Favaro, Andrea Vedaldi:
AdaBoost. 16-19 - Adaptive Boosting. 19
- Adaptive Gains. 19
- Affine Alignment. 19
- Zhengyou Zhang:
Affine Camera. 19-20 - Michael Werman:
Affine Invariants. 20-22 - Zhengyou Zhang:
Affine Projection. 22 - Kevin Köser:
Affine Registration. 22-25 - Affordances. 25
- James Bonaiuto:
Affordances and Action Recognition. 25-27 - Bo Zheng:
Algebraic Curve. 27-29 - Bo Zheng:
Algebraic Surface. 29-31 - Analytic Reflectance Functions. 31
- Dana H. Ballard:
Animat Vision. 31-36 - Anisotropic Diffusion. 36
- Aperture Ghosting. 36
- Appearance Scanning. 36
- William Robson Schwartz:
Appearance-Based Human Detection. 36-38 - Bohyung Han:
Appearance-Based Human Tracking. 38-40 - Appearance-Based Pedestrian Detection. 40
- Articulated Pose Estimation. 40
- Sylvia C. Pont
:
Asperity Scattering. 40-42 - Automatic Gait Recognition. 42
- Automatic Scale Selection. 42
- Automatic White Balance (AWB). 42
- Backscattering. 43
- Manmohan Chandraker:
Bas-Relief Ambiguity. 43-46 - Behavior Understanding. 46
- Kristin J. Dana:
Bidirectional Texture Function and 3D Texture. 46-50 - Rajeev Ramanath, Mark S. Drew:
Blackbody Radiation. 50-52 - Blackbody Radiator. 52
- Tom E. Bishop, Paolo Favaro:
Blind Deconvolution. 52-57 - Yu-Wing Tai:
Blur Estimation. 57-59 - Blur Kernel Estimation. 59
- Body Configuration Recovery. 59
- Xiaofeng Ren:
Boundary Detection. 59-64 - Boundary Extraction. 64
- BRDF Measurement. 64
- BRDF Models. 64
- Calculus of Variations. 65
- Zhengyou Zhang:
Calibration. 65 - Peter F. Sturm:
Calibration of a Non-single Viewpoint System. 66-69 - Jun-Sik Kim:
Calibration of Multi-camera Setups. 69-72 - Zhengyou Zhang:
Calibration of Projective Cameras. 73-74 - Stephen Lin:
Calibration of Radiometric Falloff (Vignetting). 74-76 - Zhengyou Zhang:
Camera Calibration. 76-77 - Zhengyou Zhang:
Camera Extrinsic Parameters. 77 - Zhengyou Zhang:
Camera Model. 77-80 - Camera Parameters (Internal, External). 81
- Zhengyou Zhang:
Camera Parameters (Intrinsic, Extrinsic). 81-85 - Zhengyou Zhang:
Camera Pose. 85 - Camera Response Function. 85
- Camera-Shake Blur. 85
- Srikumar Ramalingam:
Catadioptric Camera. 85-89 - Catoptrics. 89
- Srikumar Ramalingam:
Center of Projection. 89-94 - Joseph L. Mundy:
Change Detection. 94-98 - Michael H. Brill:
Chromaticity. 98-100 - CIE Standard Illuminant. 100
- Clifford Algebra. 100
- Clipping. 100
- Cluster Sampling. 100
- Coefficient Rule. 100
- Cognitive Agent. 100
- David Vernon:
Cognitive System. 100-106 - David Vernon:
Cognitive Vision. 106-109 - Color Adaptation. 109
- Color Appearance Models. 109
- Color Balance. 109
- Marc Ebner:
Color Constancy. 109-116 - Color Difference. 116
- Color Discrepancy. 116
- Color Dissimilarity. 116
- Color Management. 116
- Shoji Tominaga:
Color Model. 116-120 - Takahiko Horiuchi, Shoji Tominaga:
Color Similarity. 121-123 - Rajeev Ramanath, Mark S. Drew:
Color Spaces. 123-132 - Color Specification Systems. 132
- Compressed Sensing. 132
- Aswin C. Sankaranarayanan, Richard G. Baraniuk:
Compressive Sensing. 132-136 - Yanxi Liu:
Computational Symmetry. 136-145 - Computer Vision. 145
- Computing Architectures for Machine Perception. 145
- Concept Languages. 145
- Concurrent Mapping and Localization (CML). 146
- Conditional Random Fields. 146
- Contour Detection. 146
- Convex Minimization. 146
- Cook-Torrance BRDF. 146
- Abhijeet Ghosh:
Cook-Torrance Model. 146-152 - Coplanarity Constraint. 152
- Michael Maire:
Corner Detection. 152-154 - Ying Nian Wu:
Cross Entropy. 154 - Takayuki Okatani:
Curvature. 154-159 - Curvedness. 159
- Curves. 159
- Jan J. Koenderink:
Curves in Euclidean Three-Space. 159-164 - Ying Nian Wu:
Data Augmentation. 165-166 - Ramanarayanan Viswanathan:
Data Fusion. 166-168 - Yu-Wing Tai:
Deblurring. 168-171 - Deconvolution. 171
- Neel Joshi:
Defocus Blur. 171-173 - Dehazing. 174
- Robby T. Tan:
Dehazing and Defogging. 174-177 - Francisco J. Estrada:
Denoising. 177-179 - Dense 3D Modeling. 179
- Christopher Zach:
Dense Reconstruction. 179-181 - Zhengyou Zhang:
Depth Distortion. 182-183 - Reinhard Koch:
Depth Estimation. 183-186 - Depth from Scattering. 186
- Depth Imaging. 186
- Tali Treibitz:
Descattering. 186-189 - Bernd Neumann:
Description Logics. 189-191 - Shoji Tominaga:
Dichromatic Reflection Model. 191-193 - Differential Geometry of Graph Spaces. 193
- Jan J. Koenderink:
Differential Geometry of Surfaces in Three-Dimensional Euclidean Space. 193-201 - Isaac Weiss:
Differential Invariants. 201-208 - Sanjeev J. Koppal:
Diffuse Reflectance. 208-210 - Diffuse Shading. 210
- Diffusely Scattered Reflectance. 210
- Diffusion. 210
- Thomas Brox:
Diffusion Filtering. 210-212 - Diffusion PDEs. 212
- Digital Matting. 212
- Peer Stelldinger, Longin Jan Latecki:
Digitization. 212-217 - Dimension Reduction. 218
- Dimensional Compression. 218
- Dimensional Embedding. 218
- Eisaku Maeda:
Dimensionality Reduction. 218-221 - Dioptrics. 221
- Discrete AdaBoost. 221
- Sanjiv Kumar:
Discriminative Random Fields. 221-229 - Disocclusion. 229
- Distance Estimation. 229
- Dual Differential Geometry. 229
- Dynamic Optimization. 229
- Boris Flach, Václav Hlavác:
Dynamic Programming. 229-230 - James H. Elder:
Edge Detection. 231-235 - Tomokazu Takahashi, Hiroshi Murase:
Eigenspace Methods. 235-239 - Zhengyou Zhang:
Eight-Point Algorithm. 239-240 - Zhi-Yong Liu:
Ellipse Fitting. 240-247 - Ellipse Matching. 247
- EM-Algorithm. 247
- Environment Mapping. 247
- Zhengyou Zhang:
Epipolar Constraint. 247 - Zhengyou Zhang:
Epipolar Geometry. 247-258 - Error Concealment. 258
- Error-Correcting Graph Matching. 258
- Error-Tolerant Graph Matching. 258
- Zhengyou Zhang:
Essential Matrix. 258-259 - Gunnar Sparr:
Euclidean Geometry. 259-263 - Michael R. M. Jenkin:
Evolution of Robotic Heads. 263-265 - Boris Flach, Václav Hlavác:
Expectation Maximization Algorithm. 265-268 - Samunda Perera, Nick Barnes, Alexander Zelinsky:
Exploration: Simultaneous Localization and Mapping (SLAM). 268-275 - Sing Bing Kang, Berthold K. P. Horn:
Extended Gaussian Image (EGI). 275-278 - Extrinsic Parameters. 278
- Xiaogang Wang:
Face Identification. 279-285 - Zicheng Liu, Zhengyou Zhang:
Face Modeling. 285-288 - Face Reconstruction. 288
- Hanno Ackermann:
Factorization. 288-291 - Feature Reduction. 291
- Rama Chellappa, Pavan K. Turaga:
Feature Selection. 291-294 - Srikumar Ramalingam:
Field of View. 294-297 - Field of Vision. 297
- Filling In. 297
- Stephen J. Maybank:
Fisher-Rao Metric. 298-300 - Fisheye Camera. 300
- Peter F. Sturm:
Fisheye Lens. 300-301 - Stephen Lin:
Fluorescent Lighting. 301-302 - Peter F. Sturm:
Focal Length. 303-305 - Focus Bracketing. 305
- Foreground-background Assignment. 305
- Fresnel Conditions. 305
- Daisuke Miyazaki:
Fresnel Equations. 305-307 - Fresnel's Law. 307
- Zhengyou Zhang:
Fundamental Matrix. 307-308 - Gait Analysis. 309
- Gait Biometrics. 309
- Darko S. Matovski, Mark S. Nixon, John N. Carter:
Gait Recognition. 309-318 - Rajeev Ramanath, Mark S. Drew:
Gamut Mapping. 318-325 - Gaze Control. 325
- Generalized Bas-Relief (GBR) Transformation. 325
- Svetlana Lazebnik:
Generic Object Recognition. 325-326 - Generically Describable Situation. 327
- Geodesic Active Contour. 327
- Ron Kimmel:
Geodesics, Distance Maps, and Curve Evolution. 327-329 - Leo Dorst:
Geometric Algebra. 329-333 - Zhengyou Zhang:
Geometric Calibration. 333-338 - Geometric Fusion. 338
- Sven J. Dickinson, Irving Biederman:
Geons. 338-346 - Matthew A. Turk:
Gesture Recognition. 346-349 - Chenyang Xu, Jerry L. Prince:
Gradient Vector Flow. 349-354 - GVF. 354
- Songde Ma, Zhanyi Hu:
Hand-Eye Calibration. 355-358 - Hazard Detection. 358
- Heterogeneous Parallel Computing. 358
- Guna Seetharaman:
High-Performance Computing in Computer Vision. 358-361 - Ying Nian Wu:
Histogram. 361-362 - Human Appearance Modeling and Tracking. 362
- Human Motion Classification. 362
- Leonid Sigal:
Human Pose Estimation. 362-370 - ICP. 371
- Stephen Lin:
Illumination Estimation, Illuminant Estimation. 371-373 - Image Alignment. 373
- Marshall F. Tappen:
Image Decompositions. 373-376 - Guoshen Yu, Guillermo Sapiro:
Image Enhancement and Restoration. 376-379 - Image Inverse Problems. 379
- Image Mosaicing. 379
- Peter F. Sturm:
Image Plane. 379-380 - Daniel C. Alexander:
Image Registration. 380-385 - Matthew Brown:
Image Stitching. 385-387 - Tien-Tsin Wong:
Image-Based Lighting. 387-390 - Ping Tan:
Image-Based Modeling. 390-392 - Shing-Chow Chan:
Image-Based Rendering. 392-399 - Image-Based Rendering (IBR). 399
- Implicit Polynomial Curve. 399
- Implicit Polynomial Surface. 399
- Stephen Lin:
Incident Light Measurement. 400-401 - Inexact Matching. 401
- Information Fusion. 401
- Inherent Optical Properties. 401
- Marcelo Bertalmío, Vicent Caselles, Simon Masnou, Guillermo Sapiro:
Inpainting. 401-416 - Yuri Boykov:
Interactive Segmentation. 416-422 - Interface Reflection. 422
- Interpretation of Line Drawings. 423
- Michael S. Langer:
Interreflections. 423-424 - Marshall F. Tappen:
Intrinsic Images. 424-425 - Intrinsic Parameters. 426
- Zhengyou Zhang:
Intrinsics. 426 - Simon Baker:
Inverse Compositional Algorithm. 426-428 - IP Camera. 428
- Fabian Langguth, Michael Goesele:
Irradiance. 428-429 - Jan J. Koenderink:
Isotropic Differential Geometry in Graph Spaces. 429-433 - Zhengyou Zhang:
Iterative Closest Point (ICP). 433-434 - Ives Transform. 434
- Gregory F. Welch:
Kalman Filter. 435-437 - Kalman-Bucy Filter. 437
- Karhunen-Loève Transform (KLT). 437
- Kernel Estimation. 437
- KF. 437
- Kinematic Chain Motion Models. 437
- Christoph Bregler:
Kinematic Motion Models. 437-440 - Labeling. 441
- Lambertian Model. 441
- Sanjeev J. Koppal:
Lambertian Reflectance. 441-443 - Lambert's Law. 443
- Learning from Partial Labels. 443
- Lens Distortion Correction. 443
- Visesh Chari, Ashok Veeraraghavan:
Lens Distortion, Radial Distortion. 443-445 - Lens Flare. 445
- Dikpal Reddy, Ashok Veeraraghavan:
Lens Flare and Lens Glare. 445-447 - Shing-Chow Chan:
Light Field. 447-453 - Light Transmission and Reflection Coefficients. 453
- Kokichi Sugihara:
Line Drawing Labeling. 453-455 - Kazuo Murota:
Linear Programming. 455-460 - Vlad I. Morariu:
Linguistic Techniques for Event Recognition. 461-462 - Local Invariants. 462
- LP. 462
- Michael F. Cohen, Richard Szeliski:
Lumigraph. 462-467 - Tomaso A. Poggio, Shimon Ullman:
Machine Recognition of Objects. 469-472 - M. Fatih Demirci, Ali Shokoufandeh, Sven J. Dickinson:
Many-to-Many Graph Matching. 472-477 - Jiaya Jia:
Matte Extraction. 477-481 - Thomas Brox:
Maximum Likelihood Estimation. 481-482 - Maximum Likelihood Estimator. 482
- Mesostructure. 482
- Methods of Image Recognition in a Low-Dimensional Eigenspace. 483
- Microgeometry. 483
- Micro Scale Structure. 483
- Mirrorlike Reflection. 483
- Jürgen Beyerer:
Mirrors. 483-486 - Jan-Olof Eklundh:
Mobile Observers. 486-488 - MoCap. 488
- Min Sun, Silvio Savarese:
Model-Based Object Recognition. 488-492 - Monte Carlo Annealing. 492
- Morphology, Form Analysis. 492
- Neel Joshi:
Motion Blur. 492-495 - Nils Hasler:
Motion Capture. 495-498 - Motion Capturing. 498
- Motion Deblurring. 498
- Motion Tracking. 498
- David Gallup:
Multi-baseline Stereo. 498-501 - Multi-camera Calibration. 501
- Gaurav Srivastava, Johnny Park, Avinash C. Kak, Birgi Tamersoy, J. K. Aggarwal:
Multi-camera Human Action Recognition. 501-511 - Amit K. Agrawal:
Multi-focus Images. 511-513 - Multimedia Retrieval. 513
- Multiple Similarity Method. 513
- Multiple View Geometry. 513
- Multiple View Stereo. 513
- Marina Alterman:
Multiplexed Illumination. 513-516 - Multiplexed Sensing. 516
- Multisensor Data Fusion. 516
- Multiview Geometry. 516
- Sudipta N. Sinha:
Multiview Stereo. 516-522 - Mutual Illumination. 522
- Network Camera. 523
- Noise Removal. 523
- Non-central Camera Calibration. 523
- Nonlinear Diffusion. 523
- Normalcy Modeling. 523
- Peter Karasev, Ivan Kolesov, Allen R. Tannenbaum:
Numerical Methods in Curve Evolution Theory. 523-531 - Numerical Partial Differential Equations. 531
- Svetlana Lazebnik:
Object Class Recognition (Categorization). 533-536 - Yali Amit, Pedro F. Felzenszwalb:
Object Detection. 537-542 - Object Extraction. 542
- Object Models. 542
- Object Motion Blur. 542
- Object Parameterizations. 542
- Object Recognition. 542
- Object Representations. 542
- Object Segmentation. 542
- Larry H. Matthies:
Obstacle Detection. 543-549 - Occlusion Boundaries from Motion. 549
- Occlusion Boundaries from Stereo Matching. 549
- Rodrigo Benenson:
Occlusion Detection. 549-551 - Rodrigo Benenson:
Occlusion Handling. 551-552 - Davide Scaramuzza:
Omnidirectional Camera. 552-560 - Peter F. Sturm:
Omnidirectional Vision. 560-562 - Ivo Ihrke:
Opacity. 562-564 - Opaque. 564
- Optic Flow. 564
- Peter F. Sturm:
Optical Axis. 564-565 - Optical Center. 565
- Thomas Brox:
Optical Flow. 565-569 - Kenichi Kanatani:
Optimal Estimation. 569-572 - Optimal Parameter Estimation. 572
- Ping Tan:
Oren-Nayar Reflectance Model. 573-575 - Jan J. Koenderink:
Osculating Paraboloids. 575-580 - Osculating Quadric. 580
- Out of Focus Blur. 580
- Panoramic Camera. 581
- Panoramic Image Generation. 581
- Panoramic Stitching. 581
- Pan-Tilt Camera Calibration. 581
- Sudipta N. Sinha:
Pan-Tilt-Zoom (PTZ) Camera. 581-586 - Pan-Tilt Camera Calibration. 586
- Bo Zheng:
Parametric Curve. 586-587 - Bo Zheng:
Parametric Surface. 588-589 - Partitioning. 589
- Rajeev Ramanath, Mark S. Drew:
Penumbra and Umbra. 589-590 - Performance Capture. 590
- Zhengyou Zhang:
Perspective Camera. 590-592 - Perspective Projection. 592
- Zhengyou Zhang:
Perspective Transformation. 592 - Phong Model. 592
- Ping Tan:
Phong Reflectance Model. 592-594 - Yasutaka Furukawa:
Photo-Consistency. 595-597 - Konrad Schindler, Wolfgang Förstner:
Photogrammetry. 597-599 - Photometric Consistency Function. 599
- Todd E. Zickler:
Photometric Invariants. 599-603 - Ronen Basri:
Photometric Stereo. 603-608 - Samuel W. Hasinoff:
Photon, Poisson Noise. 608-610 - Picture Understanding. 610
- Piecewise Polynomial. 610
- Pinhole Camera. 610
- Peter F. Sturm:
Pinhole Camera Model. 610-613 - Rajeev Ramanath, Mark S. Drew:
Planckian Locus. 613-616 - David Gallup, Marc Pollefeys:
Plane Sweeping. 616-618 - Shing-Chow Chan:
Plenoptic Function. 618-623 - Point Spread Function Estimation. 623
- Gary A. Atkinson:
Polarization. 624-629 - Polarization Filter. 629
- Gary A. Atkinson:
Polarized Light in Computer Vision. 630-634 - Daisuke Miyazaki:
Polarizer. 634-636 - Polarizing Film. 636
- Principal Axis. 636
- Takio Kurita:
Principal Component Analysis (PCA). 636-639 - Principal Distance. 639
- Probabilistic Hill Climbing. 639
- Zhengyou Zhang:
Projection. 639 - Projection Matrix. 639
- Zhengyou Zhang:
Projection Transformation. 639-640 - Richard I. Hartley:
Projective Reconstruction. 640-651 - Projective Structure and Motion. 651
- Zhe Lin, Zhuolin Jiang, Larry S. Davis:
Prototype-Based Methods for Human Movement Modeling. 651-654 - PSF Estimation. 654
- PTZ Camera Calibration. 654
- Pulling a Matte. 654
- Purposive Vision. 654
- Fabian Langguth, Michael Goesele:
Radiance. 655-656 - Yasuyuki Matsushita:
Radiometric Calibration. 656-658 - Radiometric Camera Calibration. 658
- Yasuyuki Matsushita:
Radiometric Response Function. 658-660 - Rao Metric. 660
- Ruzena Bajcsy:
Rationale for Computational Vision. 660-663 - Recognition-By-Components (RBC) Theory. 663
- Jason Lawrence:
Recovery of Reflectance Properties. 663-669 - Zhengyou Zhang:
Reference Plane. 669-671 - Robert J. Woodham:
Reflectance Map. 671-674 - Szymon Rusinkiewicz:
Reflectance Models. 674-677 - Reflection Mapping. 677
- Reflectometry. 677
- Relation Between Objects and Their Digital Images. 677
- Relief Texture. 677
- Retina. 677
- Retinex Algorithm. 677
- Micah K. Johnson:
Retinex Theory. 677-679 - Sylvia C. Pont:
Retroreflection. 679-680 - Rigid Alignment. 681
- Rigid Matching. 681
- Rigid Positioning. 681
- Yonghuai Liu, Ralph R. Martin, Liang Chen, Xuejun Ren, Longzhuang Li:
Rigid Registration. 681-691 - Rigid Transformation Estimation. 691
- Robot-Camera Calibration. 691
- Robust Clustering. 691
- Peter Meer, Sushil Mittal:
Robust Methods. 691-697 - Robust Regression. 697
- Samuel W. Hasinoff:
Saturation (Imaging). 699-701 - Tony Lindeberg:
Scale Selection. 701-713 - Scale-Invariant Image Features and Image Descriptors. 713
- Scene/Image Parsing. 713
- Schott Noise. 713
- Second Order Approximation. 713
- Segmentation. 713
- Jamie Shotton, Pushmeet Kohli:
Semantic Image Segmentation. 713-716 - Semiautomatic. 716
- Semidefinite Optimization. 716
- Chunhua Shen, Anton van den Hengel:
Semidefinite Programming. 717-719 - Pramod K. Varshney:
Sensor Fusion. 719-721 - Shadow. 721
- Shape from Outlines of Projection. 721
- Mohit Gupta:
Shape from Scatter. 721-724 - Pascal Mamassian:
Shape from Shadows. 724-725 - David C. Schneider:
Shape from Silhouette. 725-726 - Shape from Specular Reflections. 726
- Silvio Savarese:
Shape from Specularities. 726-729 - Sven J. Dickinson, Ali Shokoufandeh, Kaleem Siddiqi:
Shock Graph. 729-737 - Shot Noise. 737
- Juergen Gall:
Simulated Annealing. 737-741 - Single Viewpoint. 741
- Christian Micheloni, Gian Luca Foresti:
Situation Graph Trees. 741-744 - Situation Scheme. 744
- Solid Texture. 744
- Space Curves. 744
- John Wright:
Sparse Coding. 744-748 - Sparse Representation. 748
- David Young:
Spatiotemporal Reasoning. 748-749 - SPDE. 749
- Specular Highlight. 749
- Robby T. Tan:
Specularity, Specular Reflectance. 750-752 - Spherical Camera. 752
- Bo Zheng:
Splines. 753-755 - Rajeev Ramanath, Mark S. Drew:
Standard Illuminants. 755-759 - Statistical Cooling. 759
- Ying Nian Wu:
Statistical Independence. 759-760 - Anuj Srivastava, Sebastian Kurtek, Eric Klassen:
Statistical Shape Analysis. 760-770 - Stochastic Differential Equations in Infinite Dimensions. 770
- Annika Lang:
Stochastic Partial Differential Equations. 770-775 - Stochastic Relaxation. 775
- Structure-from-Motion (SfM). 775
- Robert B. Fisher:
Subpixel Estimation. 775-777 - Kazuhiro Fukui:
Subspace Methods. 777-781 - Superresolution. 781
- Surface Corrugations. 781
- Surface Orientation Histogram (Discrete Version of EGI). 781
- Surface Reconstruction. 781
- Sylvia C. Pont:
Surface Roughness. 781-782 - Surface Scattering. 782
- Surface Undulations. 782
- Surfaces. 782
- Surveillance Camera. 782
- SW Cut. 782
- Adrian Barbu:
Swendsen-Wang Algorithm. 783-785 - Adrian Barbu:
Swendsen-Wang Cut Algorithm. 785-788 - Symmetry Detection. 788
- Symmetry-Based X. 788
- Terminological Logics. 789
- Texture Classification. 789
- Matti Pietikäinen:
Texture Recognition. 789-793 - Thermal Radiator. 793
- Three Dimensional Descriptor. 793
- Three Dimensional Estimation. 793
- Three Dimensional Face Modeling. 793
- Three Dimensional Modeling from Images. 793
- Three Dimensional Reconstruction. 793
- Federico Tombari:
Three Dimensional Shape Descriptor. 793-797 - Denis Laurendeau:
Three Dimensional View Integration. 797-812 - Bastian Goldluecke:
Total Variation. 812-815 - Tracker-Camera Calibration. 815
- Transparency. 815
- Manish Singh:
Transparency and Translucency. 815-819 - Yanghai Tsin:
Transparent Layers. 819-827 - Transportation Problem. 827
- Michael H. Brill:
Trichromatic Theory. 827-829 - Two Dimensional Conditional Random Fields. 829
- Frank M. Caimi:
Underwater Effects. 831-837 - Underwater Light Field. 837
- Underwater Radiative Transfer Processes. 837
- User-Assisted. 837
- User-Guided. 837
- Variable Selection. 839
- Bastian Goldluecke:
Variational Analysis. 839-840 - Bastian Goldluecke:
Variational Method. 840-842 - Variational Methods. 842
- Veiling Glare. 842
- Velvety Reflectance. 842
- Video Alignment and Stitching. 842
- Zhigang Zhu:
Video Mosaicing. 842-847 - Video Mosaicking. 847
- Cees G. M. Snoek, Arnold W. M. Smeulders:
Video Retrieval. 847-850 - Video Search. 850
- Vasu Parameswaran, Ashok Veeraraghavan:
View and Rate-Invariant Human Action Recognition. 850-854 - Amit K. Agrawal:
Vignetting. 854-856 - Vignetting Estimation. 856
- Fabio Camilli, Emmanuel Prados:
Viscosity Solution. 856-860 - Visibility Enhancement in Bad Weather. 860
- Vision-Based Control. 860
- Vision-Based Feedback. 860
- David Vernon:
Visual Cognition. 860-862 - Tomaso A. Poggio, Shimon Ullman:
Visual Cortex Models for Object Recognition. 862-866 - David C. Schneider:
Visual Hull. 866-869 - Visual Inference. 869
- Visual Patterns. 869
- François Chaumette:
Visual Servoing. 869-874 - Visual SLAM. 874
- Volumetric Texture. 874
- Rajeev Ramanath, Mark S. Drew:
von Kries Hypothesis. 874-875 - von Kries-Ives Adaptation. 875
- Zhengyou Zhang:
Weak Perspective Projection. 877-883 - Lorenzo Torresani:
Weakly Supervised Learning. 883-885 - Rajeev Ramanath, Mark S. Drew:
White Balance. 885-888 - White Point. 888
- Tinne Tuytelaars:
Wide Baseline Matching. 888-891 - Wide Field of View Stereo Matching. 891
- Wide-angle Camera. 891
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