Proc. in AI(9)
* On the Uniqueness of Curvature Features
PROCAMS06
* *Projector-Camera Systems
* Adaptive Environment Map for Relighting: Using Cameras and Projected Light
* Autocalibration of an Ad Hoc Construction of Multi-Projector Displays
* Automatic Interactive Calibration of Multi-Projector-Camera Systems
* Camera-Based Energy Relaxation Framework to Minimize Color Artifacts in a Projected Display, A
* Camera-Projector System for Robot Positioning by Visual Servoing, A
* Germination of the Active Lighting: An Introduction and Brief History of Our Research
* Practical Methods for Geometric and Photometric Correction of Tiled Projector
* Robust and Accurate Visual Echo Cancelation in a Full-duplex Projector-Camera System
* Robust Content-Dependent Photometric Projector Compensation
* Vision-Based Projection-Handwriting Integration in Classroom
11 for PROCAMS06
PROCAMS07
* *Projector-Camera Systems
* Analysis of Light Transport based on the Separation of Direct and Indirect Components
* Automatic texture mapping on real 3D model
* Cordless portable multi-view fringe projection system for 3D reconstruction
* DigiTable: an interactive multiuser table for collocated and remote collaboration enabling remote gesture visualization
* Displaying a Moving Image By Multiple Steerable Projectors
* Embodied User Interface for Increasing Physical Activities in Game, An
* Flexible Pixel Compositor for Plug-and-Play Multi-Projector Displays
* Focal Pre-Correction of Projected Image for Deblurring Screen Image
* Geometric Modeling and Calibration of Planar Multi-Projector Displays Using Rational Bezier Patches
* High-Speed Measurement of BRDF using an Ellipsoidal Mirror and a Projector
* High-Speed Visual Tracking of the Nearest Point of an Object Using 1,000-fps Adaptive Pattern Projection
* Improved Legibility of Text for Multiprojector Tiled Displays
* Inter-Reflection Compensation for Immersive Projection Display
* Multi-Use Light Engine: Fast Projection
* Photometric Self-Calibration of a Projector-Camera System
* Projector Calibration using Arbitrary Planes and Calibrated Camera
* Projector-Camera Guided Fast Environment Restoration of a Biofeedback System for Rehabilitation
* Real-Time ProCam System for Interaction with Chinese Ink-and-Wash Cartoons, A
* Real-Time Projector Tracking on Complex Geometry Using Ordinary Imagery
* Real-Time Projector Tracking on Complex Geometry Using Ordinary Imagery
* Realizing Super-Resolution with Superimposed Projection
* Shadow Removal in Front Projection Environments Using Object Tracking
* Virtual Recovery of the Deteriorated Art Object based on AR Technology
24 for PROCAMS07
Proceedings RFIA 10 1996
* Caracterisation De Performances Des Algorithmes De Vision: Un Exemple: Le Detecteur De Coins
Product
* Face Recognition System for the PC
ProjCam05
* *Projector-Camera Systems
* Active Pursuit Tracking in a Projector-Camera System with Application to Augmented Reality
* Annotating Real World objects using a Steerable Projector-Camera Unit
* Architecture and Performance of the HI-Space Projector-Camera Interface
* Automatic Projector Calibration Using Self-Identifying Patterns
* Camera Based Automatic Calibration for the Varrier-System
* Camera-Projector System for Real-Time 3D Video, A
* Capturing 2.5D Depth and Texture of Time-Varying Scenes Using Structured Infrared Light
* Dense 3D Reconstruction with an Uncalibrated Stereo System using Coded Structured Light
* Handheld Projectors for Mixing Physical and Digital Textures
* Improved Topological Fiducial Tracking in the reacTIVision System
* Improving the Speed of Virtual Rear Projection: A GPU-Centric Architecture
* Multi-Planar Projection by Fixed-Center Pan-Tilt Projectors
* Pixel-Aligned Warping for Multiprojector Tiled Displays
* Radiometric Compensation in a Projector-Camera System Based Properties of Human Vision System
* Sensing Deforming and Moving Objects with Commercial Off the Shelf Hardware
* Smart Light-Ultra High Speed Projector for Spatial Multiplexing Optical Transmission
* Steerable Projector Calibration
* Structured Light Based Depth Edge Detection for Object Shape Recovery
* Theory for Photometric Self-Calibration of Multiple Overlapping Projectors and Cameras, A
20 for ProjCam05