1st and 2nd FM generation 3D halftoning1 MICRON PIXELS133-MEGAPIXEL180 degree images1-bit matrix completion100 Hue test1/f noise108 Megapixel
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2D VIEWS2D DCT2.5D reconstruction2-d scale2D metrics2D to Hologram conversion2D-plus-depth video2D and 3D video2.5D PRINTING2D/3D imaging, high performance computing, imaging systems, efficient computations and storage2.5 D printing2D AND 3D CONVERTIBLE DISPLAY2.5D printing2AFC2.5D2D2D printing2D-TO-3D CONVERSION ARTIFACTS2-D barcodes
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3D image compression3D Digital Image Correlation3D Data Sources3D Halftoning3D camera3D-HEVC3D adaptive halftoning3D connected tube model3D scene flow estimation360-degree videos3D Video Communications3D/4D DATA PROCESSING AND FILTERING3D Shape Indexing and Retrieval3D EDUCATIONAL MATERIAL3D Tracking3D Range Data3D surface reproduction3D STACK3D Modeling3D TRANSFORMATION3D model3D Imaging3D compression360-degree Image360 IMAGING3D HALFTONING3D range scanning360° video3ARRI footage3D Curvelet3D depth sensing3D/2D Visuals3D modeling3D RECONSTRUCTION3D rigid transformations3D Immersion3D Vision3D digital halftoning360 degree images3D Range Data Compression3D capture3D scanning3D Mapping3D modelling3D recovery3D Printing3D Point Cloud3D affine transformation3D printing3D Communications360-degree content3D shape3D PRINTER3D/4D Scanning3D-LUT3D video360 degrees video360-degree art exhibition3D CAMERAS360-degree image projection3D stereo vision3D perception360 panorama3D Morphable Model360-degree images3D Object Detection3D MODEL3D face alignment3D PRINTING3D theater program listing3D Measurement3D DIGITIZATION METHOD FOR OIL PAINTINGS3D-shooting3D position measurement of people3D Telepresence3D Data Processing3D shape indexing and retrieval3D mesh3D display3D-color perception3D refinement3D video processing3D scene classification3D warping3D objects3D surface3D Saliency3D optical scans3D data processing3D depth-map360-degree video streaming360-video3D mapping and localization360VR3D/4D Data Processing and Filtering3DMM3D VISUALIZATION3D Compression and Encryption3D reconstruction3D Iterative Halftoning360° STEREO PANORAMAS3D MESH3D Scene Reconstruction3D Lidar3D-CNN3DSR3D communications360-degree video3D displays360-degree3D Display3D MESHES3D Gaussian splatting3D Models3D Computer Graphics3D Compression3D object shape3D shape analysis360-deg quality assessment360-DEGREE IMAGE3D Quality3D Video Conferencing3D Image Processing3D RANGE IMAGING3d localization3-D RECONSTRUCTION3D MODELLING3D and 2D3D SCENE RECONSTRUCTION AND MODELING3D SHAPE INDEXING AND RETRIEVAL3D Meshes3D SALIENCY3D recursive search3D-human body detection3D Video3-T pixel3D print3D halftoning360° VIDEO3D INTERACTION3D imaging3D audio3D ACQUISITION ARCHITECTURE3D RECOVERY3D printer3D Print Appearance3D colour Digital Image Correlation3D digitization and dissemination3D localization and mapping3D range geometry3D/4D SCANNING3D localization3D-assisted features3D Scene Reconstruction and Modeling3D-Anisotropic smoothing3DCNN3D point cloud3D human-centered technologies3D projector35MM FILM DIGITIZATION3D mesh simplification3d video3D STIMULI3D IMAGE3D vision3D encoding3D3D surface structure based halftoning3D COMPRESSION AND ENCRYPTION3D glasses3D Reconstruction360-degree imaging3D Color Printing3D-printing3d3D Range Data Encoding3D USER INTERFACES3D TV360-Degree Video Technology3D PROFILE3D cinema and TV3-D SHAPE RECOVERY360x3D scene capture3d mapping360 Video3A ALGORITHMS3D-high efficiency video coding3D visual representation3D DISPLAY
A dual channel spatial-temporal model for contrast detection is shown to improve the predictions for the spatial-temporal Modelfest data over those of the simplified Barten model.