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<br>Deep Examplar-Based Colorization | <br>Deep Examplar-Based Colorization | ||
<br>Mingming He* (HKUST), Dongdong Chen* (University of Science and Technology of China), [[廖菁]] Jing Liao (Microsoft Research Asia), Pedro V. Sander (HKUST), 袁路 Lu Yuan (Microsoft Research Asia) (*Joint first authors.) | <br>[[贺明明]] Mingming He* (HKUST), Dongdong Chen* (University of Science and Technology of China), [[廖菁]] Jing Liao (Microsoft Research Asia), Pedro V. Sander (HKUST), 袁路 Lu Yuan (Microsoft Research Asia) (*Joint first authors.) | ||
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<br>Locally Adaptive Rank-Constrained Optimal Tone Mapping | <br>Locally Adaptive Rank-Constrained Optimal Tone Mapping | ||
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<br>Stereo Magnification: Learning View Synthesis Using Multiplane Images | <br>Stereo Magnification: Learning View Synthesis Using Multiplane Images | ||
<br>Tinghui Zhou (University of California at Berkeley), Richard Tucker, John Flynn, Graham Fyffe, Noah Snavely (Google Research) | <br>Tinghui Zhou (University of California at Berkeley), Richard Tucker, John Flynn, Graham Fyffe, Noah Snavely (Google Research) | ||
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<br>Mingming He, [[廖菁]] Jing Liao, Pedro V. Sander (HKUST), Hugues Hoppe (Microsoft Research) | <br>TinghuiGigapixel Panorama Video Loops | ||
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<br>TinghuiTowards Virtual Reality Infinite Walking: Dynamic Saccadic Redirection | |||
<br>孙琪 Qi Sun (Stony Brook University), Anjul Patney (NVIDIA Corporation), 魏立一 Li-Yi Wei (The University of Hong Kong), Omer Shapira (NVIDIA Corporation), Jingwan Lu, Paul Asente (Adobe Research), Suwen Zhu (Stony Brook University), Morgan McGuire (Williams College), David Luebke (NVIDIA Corporation), Arie Kaufman (Stony Brook University) | <br>孙琪 Qi Sun (Stony Brook University), Anjul Patney (NVIDIA Corporation), 魏立一 Li-Yi Wei (The University of Hong Kong), Omer Shapira (NVIDIA Corporation), Jingwan Lu, Paul Asente (Adobe Research), Suwen Zhu (Stony Brook University), Morgan McGuire (Williams College), David Luebke (NVIDIA Corporation), Arie Kaufman (Stony Brook University) | ||
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<br>TinghuiNeural Best-Buddies: Sparse Cross-Domain Correspondence | |||
<br>Kfir Aberman (Tel Aviv University), [[廖菁]] Jing Liao (Microsoft Research Asia), Mingyi Shi , Dani Lischinski (The Hebrew University of Jerusalem), Daniel Cohen-Or (Tel Aviv University), 陈宝权 Baoquan Chen (Shandong University) | <br>Kfir Aberman (Tel Aviv University), [[廖菁]] Jing Liao (Microsoft Research Asia), Mingyi Shi , Dani Lischinski (The Hebrew University of Jerusalem), Daniel Cohen-Or (Tel Aviv University), 陈宝权 Baoquan Chen (Shandong University) | ||
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<br>Learning Local Shape Descriptors from Part Correspondences with Multiview Convolutional Networks | <br>Learning Local Shape Descriptors from Part Correspondences with Multiview Convolutional Networks | ||
<br>Haibin Huang, Evangelos Kalogerakis (University of Massachusetts Amherst), Siddhartha Chaudhuri (Indian Institute of Technology Bombay), Duygu Ceylan, Vladimir G. Kim, M. Ersin Yumer (Adobe Research) | <br>[[黄海彬]] Haibin Huang, Evangelos Kalogerakis (University of Massachusetts Amherst), Siddhartha Chaudhuri (Indian Institute of Technology Bombay), Duygu Ceylan, Vladimir G. Kim, M. Ersin Yumer (Adobe Research) | ||
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<br>Rendering Specular Microgeometry with Wave Optics | <br>Rendering Specular Microgeometry with Wave Optics | ||
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<br>Stabilizing Integrators for Real-Time Physics | <br>Stabilizing Integrators for Real-Time Physics | ||
<br>Dimitar Dinev (University of Utah), [[刘天添]] Tiantian Liu (University of Pennsylvania), Ladislav Kavan (University of Utah) | <br>Dimitar Dinev (University of Utah), [[刘天添]] Tiantian Liu (University of Pennsylvania), Ladislav Kavan (University of Utah) | ||
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<br>Gradient-domain Volumetric Photon Density Estimation | <br>Gradient-domain Volumetric Photon Density Estimation | ||
<br>Adrien Gruson, Binh-Son Hua (The University of Tokyo), Nicolas Vibert , Derek Nowrouzezahrai (McGill University), Toshiya Hachisuka (The University of Tokyo) | <br>Adrien Gruson, Binh-Son Hua (The University of Tokyo), Nicolas Vibert , Derek Nowrouzezahrai (McGill University), Toshiya Hachisuka (The University of Tokyo) | ||
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<br>Scalable Laplacian Eigenfluids | <br>Scalable Laplacian Eigenfluids | ||
<br>Qiaodong Cui, Pradeep Sen (University of California, Santa Barbara), Theodore Kim (Pixar Animation Studios) | <br>Qiaodong Cui, Pradeep Sen (University of California, Santa Barbara), Theodore Kim (Pixar Animation Studios) | ||
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<br>Precomputed Panel Solver for Aerodynamics Simulation | <br>Precomputed Panel Solver for Aerodynamics Simulation | ||
<br>谢浩然 Haoran Xie, Takeo Igarashi (The University of Tokyo), Kazunori Miyata (JAIST) | <br>谢浩然 Haoran Xie, Takeo Igarashi (The University of Tokyo), Kazunori Miyata (JAIST) | ||
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<br>Creating and Chaining Camera Moves for Quadrotor Videography | <br>Creating and Chaining Camera Moves for Quadrotor Videography | ||
<br>Ke Xie, Hao Yang, Shengqiu Huang (Shenzhen University), Dani Lischinski (The Hebrew University of Jerusalem), Marc Christie (University of Rennes 1), 徐凯 Kai Xu (National University of Defense Technology (NUDT)), 龚明伦 Minglun Gong (Memorial University of Newfoundland), Daniel Cohen-Or (Tel Aviv University) 黄惠 Hui Huang (Shenzhen University) | <br>谢科 Ke Xie, Hao Yang, Shengqiu Huang (Shenzhen University), Dani Lischinski (The Hebrew University of Jerusalem), Marc Christie (University of Rennes 1), 徐凯 Kai Xu (National University of Defense Technology (NUDT)), 龚明伦 Minglun Gong (Memorial University of Newfoundland), Daniel Cohen-Or (Tel Aviv University) 黄惠 Hui Huang (Shenzhen University) | ||
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<br>Quadrangulation through Morse-Parameterization Hybridization | <br>Quadrangulation through Morse-Parameterization Hybridization | ||
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<br>Designing Patterns using Triangle-Quad Hybrid Meshes | <br>Designing Patterns using Triangle-Quad Hybrid Meshes | ||
<br>Chi-Han Peng (KAUST), Helmut Pottmann (TU Wien), Peter Wonka (KAUST) | <br>彭其瀚 Chi-Han Peng (KAUST), Helmut Pottmann (TU Wien), Peter Wonka (KAUST) | ||
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<br>Toward Wave-based Sound Synthesis for Computer Animation | <br>Toward Wave-based Sound Synthesis for Computer Animation | ||
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<br>What Characterizes Personalities of Graphic Designs? | <br>What Characterizes Personalities of Graphic Designs? | ||
<br>Nanxuan Zhao, Ying Cao,刘永雄 Rynson Lau (City University of Hong Kong) | <br>趙南軒 Nanxuan Zhao, Ying Cao,刘永雄 Rynson Lau (City University of Hong Kong) | ||
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<br>Scale-Aware Black-and-White Abstraction of 3D Shapes | <br>Scale-Aware Black-and-White Abstraction of 3D Shapes | ||
<br>You-En Lin (National Tsing Hua University), Yongliang Yang (University of Bath), 朱宏国 Hung-Kuo Chu (National Tsing Hua University) | <br>林佑恩 You-En Lin (National Tsing Hua University), Yongliang Yang (University of Bath), 朱宏国 Hung-Kuo Chu (National Tsing Hua University) | ||
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<br>Perception-Driven Semi-Structured Boundary Vectorization | <br>Perception-Driven Semi-Structured Boundary Vectorization | ||
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<br>Dataset and metrics for predicting local visible differences | <br>Dataset and metrics for predicting local visible differences | ||
<br>Krzysztof Wolski (MPI Informatik), Daniele Giunchi (University College London), Nanyang Ye (University of Cambridge), Piotr Didyk (MPI Informatik, Universita della Svizzera italiana (USI) and Saarland University), Karol Myszkowski (MPI Informatics), Radoslaw Mantiuk (West Pomeranian University of Technology), Hans-Peter Seidel (MPI Informatics), Anthony Steed (University College London), Rafal K. Mantiuk (University of Cambridge) | <br>Krzysztof Wolski (MPI Informatik), Daniele Giunchi (University College London),叶南阳 Nanyang Ye (University of Cambridge), Piotr Didyk (MPI Informatik, Universita della Svizzera italiana (USI) and Saarland University), Karol Myszkowski (MPI Informatics), Radoslaw Mantiuk (West Pomeranian University of Technology), Hans-Peter Seidel (MPI Informatics), Anthony Steed (University College London), Rafal K. Mantiuk (University of Cambridge) | ||
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<br>Deep Image-Based Relighting from Optimal Sparse Samples | <br>Deep Image-Based Relighting from Optimal Sparse Samples | ||
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<br>Polyhedral Voronoi diagrams for additive manufacturing | <br>Polyhedral Voronoi diagrams for additive manufacturing | ||
<br>Jonas Martinez, Samuel Hornus, Haichuan Song, Sylvain Lefebvre (INRIA) | <br>Jonas Martinez, Samuel Hornus,宋海川 Haichuan Song, Sylvain Lefebvre (INRIA) | ||
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<br>Stitch Meshing | <br>Stitch Meshing | ||
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<br>Physics-Inspired Garment Recovery from a Single-View Image | <br>Physics-Inspired Garment Recovery from a Single-View Image | ||
<br>Shan Yang, Zherong Pan, Tanya Amert, Ke Wang, Licheng Yu, Tamara L. Berg, Ming C. Lin (University of North Carolina at Chapel Hill) | <br>Shan Yang,[[潘哲融]] Zherong Pan, Tanya Amert, Ke Wang,虞立成 Licheng Yu, Tamara L. Berg, Ming C. Lin (University of North Carolina at Chapel Hill) | ||
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<br>Computational Design of Transforming Pop-up Books | <br>Computational Design of Transforming Pop-up Books | ||
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<br>Autocomplete 3D Sculpting | <br>Autocomplete 3D Sculpting | ||
<br>彭梦琪 Mengqi Peng, Jun Xing, 魏立一 Li-Yi Wei (The University of Hong Kong) | <br>彭梦琪 Mengqi Peng, Jun Xing, 魏立一 Li-Yi Wei (The University of Hong Kong) | ||
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<br>FoldSketch: Enriching Garments with Physically Reproducible Folds | <br>FoldSketch: Enriching Garments with Physically Reproducible Folds | ||
<br>[[李旻辰]] Minchen Li, Alla Sheffer (The University of British Columbia), Eitan Grinspun (Columbia University), Nicholas Vining (The University of British Columbia) | <br>[[李旻辰]] Minchen Li, Alla Sheffer (The University of British Columbia), Eitan Grinspun (Columbia University), Nicholas Vining (The University of British Columbia) | ||
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<br>A Moving Least Squares Material Point Method with Displacement Discontinuity and Two-Way Rigid Body Coupling | <br>A Moving Least Squares Material Point Method with Displacement Discontinuity and Two-Way Rigid Body Coupling | ||
<br>胡渊鸣 Yuanming Hu, (MIT CSAIL), Yu Fang, Ziheng Ge, Ziyin Qu (University of Pennsylvania), [[胡译心]] Yixin Zhu (UCLA), Andre Pradhana, 蒋陈凡夫 Chenfanfu Jiang (University of Pennsylvania) | <br>胡渊鸣 Yuanming Hu, (MIT CSAIL),方燠 Yu Fang, Ziheng Ge,屈子吟 Ziyin Qu (University of Pennsylvania), [[胡译心]] Yixin Zhu (UCLA), Andre Pradhana, 蒋陈凡夫 Chenfanfu Jiang (University of Pennsylvania) | ||
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<br>Semi-Supervised Co-Analysis of 3D Shape Styles from Projected Lines | <br>Semi-Supervised Co-Analysis of 3D Shape Styles from Projected Lines | ||
<br>Fenggen Yu, Yan Zhang (Nanjing University), 徐凯 Kai Xu (National University of Defense Technology (NUDT)), Ali Mahdavi-Amiri, 张皓 Hao Zhang (Simon Fraser University) | <br>余锋根 Fenggen Yu, Yan Zhang (Nanjing University), 徐凯 Kai Xu (National University of Defense Technology (NUDT)), Ali Mahdavi-Amiri, 张皓 Hao Zhang (Simon Fraser University) | ||
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<br>Predictive and Generative Neural Networks for Object Functionality | <br>Predictive and Generative Neural Networks for Object Functionality | ||
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<br>P2P-NET: Bidirectional Point Displacement Net for Shape Transform | <br>P2P-NET: Bidirectional Point Displacement Net for Shape Transform | ||
<br>Kangxue Yin (Simon Fraser University), 黄惠 Hui Huang (Shenzhen University), Daniel Cohen-Or (Tel Aviv University), 张皓 Hao Zhang (Simon Fraser University) | <br>尹康学 Kangxue Yin (Simon Fraser University), 黄惠 Hui Huang (Shenzhen University), Daniel Cohen-Or (Tel Aviv University), 张皓 Hao Zhang (Simon Fraser University) | ||
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<br>Gradient-Domain Processing within a Texture Atlas | <br>Gradient-Domain Processing within a Texture Atlas | ||