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Ryo Furukawa 0001
Person information
- affiliation: Kindai University, Higashi-Hiroshima, Japan
- affiliation: Hiroshima City University, Hiroshima, Japan
Other persons with the same name
- Ryo Furukawa — disambiguation page
- Ryo Furukawa 0002
— Hokkaido University, Japan
- Ryo Furukawa 0003 — NEC Corporation, Kanagawa, Japan
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2020 – today
- 2023
- [j18]Ryo Furukawa, Michihiro Mikamo, Ryusuke Sagawa, Yuki Okamoto, Shiro Oka, Shinji Tanaka, Hiroshi Kawasaki:
Multi-frame optimisation for active stereo with inverse renderingto obtain consistent shape and projector-camera posesfor 3D endoscopic system. Comput. methods Biomech. Biomed. Eng. Imaging Vis. 11(4): 1178-1186 (2023) - [c93]Ryo Furukawa, Ryusuke Sagawa, Shiro Oka, Shinji Tanaka, Hiroshi Kawasaki:
Single and multi-frame auto-calibration for 3D endoscopy with differential rendering. EMBC 2023: 1-5 - [c92]Hiroto Harada, Michihiro Mikamo, Ryo Furukawa, Ryusuke Sagawa, Hiroshi Kawasaki:
Generalization of pixel-wise phase estimation by CNN and improvement of phase-unwrapping by MRF optimization for one-shot 3D scan. MVA 2023: 1-5 - [i8]Hiroto Harada, Michihiro Mikamo, Ryo Furukawa, Ryusuke Sagawa, Hiroshi Kawasaki:
Generalization of pixel-wise phase estimation by CNN and improvement of phase-unwrapping by MRF optimization for one-shot 3D scan. CoRR abs/2309.14824 (2023) - 2022
- [j17]Ryo Furukawa
Simultaneous estimation of projector and camera poses for multiple oneshot scan using pixel-wise correspondences estimated by U-Nets and GCN. Comput. methods Biomech. Biomed. Eng. Imaging Vis. 10(5): 540-548 (2022) - [j16]Ryusuke Sagawa, Yusuke Higuchi, Ryo Furukawa, Hiroshi Kawasaki:
Acquisition and Visualization of Micro-Vibration of a Sound Wave in 3D Space. J. Robotics Mechatronics 34(5): 1024-1032 (2022) - [c91]Yi Tang, Takafumi Iwaguchi, Hiroshi Kawasaki, Ryusuke Sagawa, Ryo Furukawa:
AutoEnhancer: Transformer on U-Net Architecture Search for Underwater Image Enhancement. ACCV (3) 2022: 120-137 - [c90]Michihiro Mikamo, Ryo Furukawa, Shiro Oka, Takahiro Kotachi, Yuki Okamoto, Shinji Tanaka, Ryusuke Sagawa, Hiroshi Kawasaki:
3D endoscope system with AR display superimposing dense and wide-angle-of-view 3D points obtained by using micro pattern projector. EMBC 2022: 881-885 - [c89]Ryo Furukawa
Single-shot dense active stereo with pixel-wise phase estimation based on grid-structure using CNN and correspondence estimation using GCN. WACV 2022: 245-255 - 2021
- [c88]Michihiro Mikamo, Ryo Furukawa
Active Stereo Method for 3D Endoscopes using Deep-layer GCN and Graph Representation with Proximity Information. EMBC 2021: 7551-7555 - [c87]Michihiro Mikamo, Hiroshi Kawasaki, Ryusuke Sagawa, Ryo Furukawa
GCN-Calculated Graph-Feature Embedding for 3D Endoscopic System Based on Active Stereo. IW-FCV 2021: 253-266 - [c86]Michihiro Mikamo, Ryo Furukawa
A Method for Adding Motion-Blur on Arbitrary Objects by Using Auto-Segmentation and Color Compensation Techniques. ICIP 2021: 1854-1858 - [i7]Michihiro Mikamo, Ryo Furukawa, Hiroshi Kawasaki:
A Method For Adding Motion-Blur on Arbitrary Objects By using Auto-Segmentation and Color Compensation Techniques. CoRR abs/2109.10524 (2021) - 2020
- [b1]Katsushi Ikeuchi
Active Lighting and Its Application for Computer Vision - 40 Years of History of Active Lighting Techniques. Advances in Computer Vision and Pattern Recognition, Springer 2020, ISBN 978-3-030-56576-3, pp. 1-303 - [c85]Ryusuke Sagawa
Dense Pixel-Wise Micro-motion Estimation of Object Surface by Using Low Dimensional Embedding of Laser Speckle Pattern. ACCV (2) 2020: 700-715 - [c84]Ryo Furukawa
Fully Auto-calibrated Active-stereo-based 3D Endoscopic System using Correspondence Estimation with Graph Convolutional Network. EMBC 2020: 4357-4360 - [i6]Ryusuke Sagawa, Yusuke Higuchi, Hiroshi Kawasaki, Ryo Furukawa, Takahiro Ito:
Dense Pixel-wise Micro-motion Estimation of Object Surface by using Low Dimensional Embedding of Laser Speckle Pattern. CoRR abs/2011.00174 (2020)
2010 – 2019
- 2019
- [j15]Yuki Shiba, Satoshi Ono
Learning-based active 3D measurement technique using light field created by video projectors. IPSJ Trans. Comput. Vis. Appl. 11 (2019) - [c83]Ryo Furukawa
Simultaneous Shape Registration and Active Stereo Shape Reconstruction using Modified Bundle Adjustment. 3DV 2019: 453-462 - [c82]Genki Nagamatsu, Ryo Furukawa
Single-wavelength and multi-parallel dotted- and solid-lines for dense and robust active 3D reconstruction. MVA 2019: 1-6 - [c81]Kazuto Ichimaru, Ryo Furukawa
CNN Based Dense Underwater 3D Scene Reconstruction by Transfer Learning Using Bubble Database. WACV 2019: 1543-1552 - 2018
- [c80]Kazuto Ichimaru, Ryo Furukawa
Multi-scale CNN Stereo and Pattern Removal Technique for Underwater Active Stereo System. 3DV 2018: 61-70 - [c79]Ryo Furukawa
Robust Structured Light System Against Subsurface Scattering Effects Achieved by CNN-Based Pattern Detection and Decoding Algorithm. ECCV Workshops (1) 2018: 372-386 - [c78]Ryo Furukawa
Wide-Area Shape Reconstruction by 3D Endoscopic System Based on CNN Decoding, Shape Registration and Fusion. OR 2.0/CARE/CLIP/ISIC@MICCAI 2018: 139-150 - [i5]Kazuto Ichimaru, Ryo Furukawa, Hiroshi Kawasaki:
Multi-scale CNN stereo and pattern removal technique for underwater active stereo system. CoRR abs/1808.08348 (2018) - [i4]Kazuto Ichimaru, Ryo Furukawa, Hiroshi Kawasaki:
CNN based dense underwater 3D scene reconstruction by transfer learning using bubble database. CoRR abs/1811.09675 (2018) - 2017
- [c77]Yuki Shiba, Satoshi Ono
Temporal Shape Super-Resolution by Intra-frame Motion Encoding Using High-fps Structured Light. ICCV 2017: 115-123 - [c76]Ryo Furukawa
Depth Estimation Using Structured Light Flow - Analysis of Projected Pattern Flow on an Object's Surface. ICCV 2017: 4650-4658 - [c75]Ryusuke Sagawa, Ryo Furukawa, Akiko Matsumoto, Hiroshi Kawasaki:
Learning-based feature extraction for active 3D scan with reducing color crosstalk of multiple pattern projections. ICRA 2017: 5074-5080 - [c74]Ryo Furukawa
3D Endoscope System Using Asynchronously Blinking Grid Pattern Projection for HDR Image Synthesis. CARE/CLIP@MICCAI 2017: 16-28 - [c73]Ryo Furukawa
Auto-calibration Method for Active 3D Endoscope System Using Silhouette of Pattern Projector. PSIVT 2017: 222-236 - [c72]Hiroshi Kawasaki, Hideaki Nakai, Hirohisa Baba, Ryusuke Sagawa, Ryo Furukawa
Calibration Technique for Underwater Active Oneshot Scanning System with Static Pattern Projector and Multiple Cameras. WACV 2017: 302-310 - [i3]Ryo Furukawa, Ryusuke Sagawa, Hiroshi Kawasaki:
Depth estimation using structured light flow - analysis of projected pattern flow on an object's surface -. CoRR abs/1710.00513 (2017) - [i2]Yuki Shiba, Satoshi Ono, Ryo Furukawa, Shinsaku Hiura, Hiroshi Kawasaki:
Temporal shape super-resolution by intra-frame motion encoding using high-fps structured light. CoRR abs/1710.00517 (2017) - 2016
- [c71]Takuto Hirukawa, Marco Visentini Scarzanella, Hiroshi Kawasaki, Ryo Furukawa
Simultaneous Independent Image Display Technique on Multiple 3D Objects. ACCV (4) 2016: 440-455 - [c70]Ryo Furukawa
Shape Acquisition and Registration for 3D Endoscope Based on Grid Pattern Projection. ECCV (6) 2016: 399-415 - [c69]Ryo Furukawa
3D endoscope system using DOE projector. EMBC 2016: 2091-2094 - [c68]Ryusuke Sagawa, Yuki Shiba, Takuto Hirukawa, Satoshi Ono
Automatic feature extraction using CNN for robust active one-shot scanning. ICPR 2016: 234-239 - [c67]Hiroshi Kawasaki, Takuto Hirukawa, Ryo Furukawa:
Registration and entire shape acquisition for grid based active one-shot scanning techniques. ICPR 2016: 1743-1749 - [i1]Takuto Hirukawa, Marco Visentini Scarzanella, Hiroshi Kawasaki, Ryo Furukawa, Shinsaku Hiura:
Simultaneous independent image display technique on multiple 3D objects. CoRR abs/1609.02994 (2016) - 2015
- [c66]Ryo Furukawa
2-DOF auto-calibration for a 3D endoscope system based on active stereo. EMBC 2015: 7937-7941 - [c65]Hiroshi Kawasaki, Satoshi Ono
Active One-Shot Scan for Wide Depth Range Using a Light Field Projector Based on Coded Aperture. ICCV 2015: 3568-3576 - [c64]Shota Eguchi, Yuki Matsugano, Hirokazu Sakaguchi, Satoshi Ono
A Comparative Study on Self-Adaptive Differential Evolution Algorithms for Test Functions and a Real-World Problem. LION 2015: 131-136 - [c63]Marco Visentini Scarzanella, Tatsuya Hanayama, Ryunosuke Masutani, Shigeto Yoshida, Yoko Kominami, Yoji Sanomura, Shinji Tanaka, Ryo Furukawa, Hiroshi Kawasaki:
Tissue Shape Acquisition with a Hybrid Structured Light and Photometric Stereo Endoscopic System. CARE@MICCAI 2015: 46-58 - [c62]Yoshinori Oki, Marco Visentini Scarzanella, Tomohito Wada, Ryo Furukawa, Ryusuke Sagawa, Hiroshi Kawasaki:
Entire shape scan system with multiple pro-cams using texture information and accurate silhouette creating technique. MVA 2015: 18-21 - [c61]Daisuke Miyazaki, Takafumi Saneshige, Masashi Baba, Ryo Furukawa
Metamerism-based shading illusion. MVA 2015: 255-258 - [c60]Marco Visentini Scarzanella, Takuto Hirukawa, Hiroshi Kawasaki, Ryo Furukawa
Two Plane Volumetric Display for Simultaneous Independent Images at Multiple Depths. PSIVT Workshops 2015: 113-126 - [c59]Hiroki Morinaga, Hirohisa Baba, Marco Visentini Scarzanella, Hiroshi Kawasaki, Ryo Furukawa
Underwater Active Oneshot Scan with Static Wave Pattern and Bundle Adjustment. PSIVT 2015: 404-418 - [c58]Michihiro Mikamo, Yoshinori Oki, Marco Visentini Scarzanella, Hiroshi Kawasaki, Ryo Furukawa
A Triangle Mesh Reconstruction Method Taking into Account Silhouette Images. PSIVT 2015: 582-593 - 2014
- [j14]Hitoshi Masuyama, Hiroshi Kawasaki, Ryo Furukawa:
Depth from Projector's Defocus Based on Multiple Focus Pattern Projection. Inf. Media Technol. 9(3): 376-380 (2014) - [j13]Hitoshi Masuyama, Hiroshi Kawasaki, Ryo Furukawa:
Depth from Projector's Defocus Based on Multiple Focus Pattern Projection. IPSJ Trans. Comput. Vis. Appl. 6: 88-92 (2014) - [j12]Ryusuke Sagawa
Dense 3D Reconstruction from High Frame-Rate Video Using a Static Grid Pattern. IEEE Trans. Pattern Anal. Mach. Intell. 36(9): 1733-1747 (2014) - [c57]Ryusuke Sagawa
4D Capture Using Visibility Information of Multiple Projector Camera System. 3DV (Workshops) 2014: 14-21 - [c56]Marcos Slomp, Hiroshi Kawasaki, Ryo Furukawa
Temporal Octrees for Compressing Dynamic Point Cloud Streams. 3DV (Workshops) 2014: 49-56 - [c55]Ryo Furukawa
Calibration of a 3D endoscopic system based on active stereo method for shape measurement of biological tissues and specimen. EMBC 2014: 4991-4994 - [c54]Ryusuke Sagawa, Yoshio Matsumoto, Hiroshi Kawasaki, Ryo Furukawa
Parallel processing of grid-based one-shot structured-light system for online 3D reconstruction of moving objects. ROBIO 2014: 1976-1982 - 2013
- [j11]Hiroshi Kawasaki, Hitoshi Masuyama, Ryusuke Sagawa, Ryo Furukawa
Single colour one-shot scan using modified Penrose tiling pattern. IET Comput. Vis. 7(5): 293-301 (2013) - [j10]Yasuhiro Akagi, Ryo Furukawa, Ryusuke Sagawa, Koichi Ogawara, Hiroshi Kawasaki:
Marker-less Facial Motion Capture based on the Parts Recognition. J. WSCG 21(2): 137-144 (2013) - [c53]Nozomu Kasuya, Ryusuke Sagawa
Robust and Accurate One-Shot 3D Reconstruction by 2C1P System with Wave Grid Pattern. 3DV 2013: 247-254 - [c52]Hirooki Aoki, Ryo Furukawa
Noncontact measurement of cardiac beat by using active stereo with waved-grid pattern projection. EMBC 2013: 1756-1759 - [c51]Hirooki Aoki, Ryo Furukawa
Proposal on 3-D endoscope by using grid-based active stereo. EMBC 2013: 5694-5697 - [c50]Nozomu Kasuya, Ryusuke Sagawa
One-Shot Entire Shape Scanning by Utilizing Multiple Projector-Camera Constraints of Grid Patterns. ICCV Workshops 2013: 299-306 - [c49]Daisuke Miyazaki, Daisuke Akiyama, Masashi Baba, Ryo Furukawa
Polarization-Based Dehazing Using Two Reference Objects. ICCV Workshops 2013: 852-859 - [c48]Daisuke Miyazaki, Kanami Takahashi, Masashi Baba, Hirooki Aoki, Ryo Furukawa
Mixing Paints for Generating Metamerism Art under 2 Lights and 3 Object Colors. ICCV Workshops 2013: 874-882 - [c47]Tomoyuki Kamikawa, Daisuke Miyazaki, Masashi Baba, Ryo Furukawa, Masahito Aoyama, Shinsaku Hiura, Naoki Asada:
High Density Shapes Using Photometric Stereo and Laser Range Sensor under Unknown Light-Source Direction. MVA 2013: 125-128 - [c46]Xingdou Fu, Zuofu Wang, Hiroshi Kawasaki, Ryusuke Sagawa, Ryo Furukawa:
Calibration of Projector with Fixed Pattern and Large Distortion Lens in a Structured Light System. MVA 2013: 222-225 - [c45]Masanari Yokomizo, Daisuke Miyazaki, Masashi Baba, Ryo Furukawa, Masahito Aoyama, Shinsaku Hiura, Naoki Asada:
Optimization of 3D Shape Sharpening Filter Based on Geometric Statistical Values. MVA 2013: 260-263 - [c44]Yohan Thibault, Hiroshi Kawasaki, Ryo Furukawa, Ryusuke Sagawa:
Exemplar based texture recovery technique for active one shot scan. MVA 2013: 331-334 - [c43]Matteo Pagliardini, Yasuhiro Akagi, Marcos Slomp, Ryo Furukawa, Ryusuke Sagawa, Hiroshi Kawasaki:
Exemplar-Based Hole-Filling Technique for Multiple Dynamic Objects. PSIVT 2013: 242-253 - [c42]Yasuhiro Akagi, Ryo Furukawa, Ryusuke Sagawa, Koichi Ogawara, Hiroshi Kawasaki:
A facial tracking and transfer method with a key point refinement. SIGGRAPH Posters 2013: 79 - 2012
- [j9]Ryo Furukawa, Ryusuke Sagawa, Hiroshi Kawasaki, Kazuhiro Sakashita, Yasushi Yagi, Naoki Asada:
Entire Shape Acquisition Technique Using Multiple Projectors and Cameras with Parallel Pattern Projection. Inf. Media Technol. 7(2): 770-782 (2012) - [j8]Kazuhiro Sakashita, Ryusuke Sagawa, Ryo Furukawa, Hiroshi Kawasaki, Yasushi Yagi:
Capturing Textured 3D Shapes based on Infrared One-shot Grid Pattern. Inf. Media Technol. 7(4): 1556-1564 (2012) - [j7]Ryo Furukawa, Ryusuke Sagawa, Hiroshi Kawasaki, Kazuhiro Sakashita, Yasushi Yagi, Naoki Asada:
Entire Shape Acquisition Technique Using Multiple Projectors and Cameras with Parallel Pattern Projection. IPSJ Trans. Comput. Vis. Appl. 4: 40-52 (2012) - [j6]Kazuhiro Sakashita, Ryusuke Sagawa, Ryo Furukawa, Hiroshi Kawasaki, Yasushi Yagi:
Capturing Textured 3D Shapes based on Infrared One-shot Grid Pattern. IPSJ Trans. Comput. Vis. Appl. 4: 161-169 (2012) - [c41]Daisuke Miyazaki, Takuya Shigetomi, Masashi Baba, Ryo Furukawa
Polarization-Based Surface Normal Estimation of Black Specular Objects from Multiple Viewpoints. 3DIMPVT 2012: 104-111 - [c40]Ryusuke Sagawa
Grid-Based Active Stereo with Single-Colored Wave Pattern for Dense One-shot 3D Scan. 3DIMPVT 2012: 363-370 - [c39]Ismaël Daribo, Ryo Furukawa, Ryusuke Sagawa, Hiroshi Kawasaki:
Adaptive arithmetic coding for point cloud compression. 3DTV-Conference 2012: 1-4 - [c38]Hiroshi Kawasaki, Hitoshi Masuyama, Ryusuke Sagawa, Ryo Furukawa
Single Color One-Shot Scan Using Topology Information. ECCV Workshops (3) 2012: 486-495 - [c37]Hirooki Aoki, Ryo Furukawa
Basic study on non-contact measurement of cardiac beat by using grid-based active stereo. EMBC 2012: 2036-2039 - [c36]Daisuke Miyazaki, Kazuki Nakamura, Masashi Baba, Ryo Furukawa, Masahito Aoyama, Shinsaku Hiura, Naoki Asada:
A first introduction to metamerism art. SIGGRAPH ASIA Posters 2012: 17 - [c35]Hirooki Aoki, Ryo Furukawa, Masahito Aoyama, Shinsaku Hiura, Ryusuke Sagawa, Hiroshi Kawasaki:
Extraction and Visualization of Cardiac Beat by Grid-Based Active Stereo. WDIA 2012: 146-157 - 2011
- [c34]Kazuhiro Sakashita, Yasushi Yagi, Ryusuke Sagawa, Ryo Furukawa, Hiroshi Kawasaki:
A System for Capturing Textured 3D Shapes Based on One-Shot Grid Pattern with Multi-band Camera and Infrared Projector. 3DIMPVT 2011: 49-56 - [c33]Yohan Thibault, Hiroshi Kawasaki, Ryusuke Sagawa, Ryo Furukawa:
Retrieving Textures for 3D Scanning System Based on Grid Pattern Method. DEXA Workshops 2011: 387-392 - [c32]Ryusuke Sagawa, Hiroshi Kawasaki, Shota Kiyota, Ryo Furukawa
Dense one-shot 3D reconstruction by detecting continuous regions with parallel line projection. ICCV 2011: 1911-1918 - [c31]Ryo Furukawa
Multiview projectors/cameras system for 3D reconstruction of dynamic scenes. ICCV Workshops 2011: 1602-1609 - [c30]Ismaël Daribo, Ryo Furukawa
Dynamic Compression of Curve-Based Point Cloud. PSIVT (2) 2011: 323-334 - [c29]Ismaël Daribo, Ryo Furukawa, Ryusuke Sagawa, Hiroshi Kawasaki, Shinsaku Hiura, Naoki Asada:
Point cloud compression for grid-pattern-based 3D scanning system. VCIP 2011: 1-4 - 2010
- [c28]Takuma Yamaguchi, Hisato Fukuda, Ryo Furukawa, Hiroshi Kawasaki, Peter F. Sturm:
Video Deblurring and Super-Resolution Technique for Multiple Moving Objects. ACCV (4) 2010: 127-140 - [c27]Hiroshi Kawasaki, Ryusuke Sagawa, Yasushi Yagi, Ryo Furukawa, Naoki Asada, Peter F. Sturm:
One-shot scanning method using an unealibrated projector and camera system. CVPR Workshops 2010: 104-111 - [c26]Masahiro Ishikawa, Hiroshi Kawasaki, Ryo Furukawa, Yukiko Kawai:
Shape rank: efficient web3D search technique using 3D features. Multimedia Information Retrieval 2010: 393-396
2000 – 2009
- 2009
- [j5]Ryo Furukawa
Laser range scanner based on self-calibration techniques using coplanarities and metric constraints. Comput. Vis. Image Underst. 113(11): 1118-1129 (2009) - [j4]Hiroshi Kawasaki, Ryo Furukawa
Shape Reconstruction and Camera Self-Calibration Using Cast Shadows and Scene Geometries. Int. J. Comput. Vis. 83(2): 135-148 (2009) - [j3]Ryo Furukawa, Hiroshi Kawasaki, Ryusuke Sagawa, Yasushi Yagi:
Shape from Grid Pattern Based on Coplanarity Constraints for One-shot Scanning. IPSJ Trans. Comput. Vis. Appl. 1: 139-157 (2009) - [c25]Takuma Yamaguchi, Hiroshi Kawasaki, Ryo Furukawa, Toshihiro Nakayama:
Super-Resolution of Multiple Moving 3D Objects with Pixel-Based Registration. ACCV (3) 2009: 516-526 - [c24]Ryo Furukawa
Multi-view reconstruction for projector camera systems based on bundle adjustment. CVPR Workshops 2009: 69-76 - [c23]Ryusuke Sagawa, Yuichi Ota, Yasushi Yagi, Ryo Furukawa
Dense 3D reconstruction method using a single pattern for fast moving object. ICCV 2009: 1779-1786 - 2008
- [c22]Ryo Furukawa:
3D Scanning Method for Fast Motion using Single Grid Pattern with Coarse-to-fine Technique. BMVC 2008: 1-10 - [c21]Hiroshi Kawasaki, Ryo Furukawa, Ryusuke Sagawa, Yasushi Yagi:
Dynamic scene shape reconstruction using a single structured light pattern. CVPR 2008 - [c20]Ryo Furukawa
One-shot range scanner using coplanarity constraints. ICIP 2008: 1524-1527 - [c19]Yukiko Kawai, Shogo Tazawa, Ryo Furukawa, Hiroshi Kawasaki:
Efficient meta-information annotation and view-dependent representation system for 3D objects on the Web. ICPR 2008: 1-4 - [c18]Hiroshi Kawasaki, Kenji Inose, Toshihiro Kawasaki, Ryo Furukawa, Ryusuke Sagawa, Yasushi Yagi:
Projector camera system for realtime 3D scanning. PROCAMS 2008: 9:1-9:2 - 2007
- [c17]Hiroshi Kawasaki, Ryo Furukawa:
Dense 3D Reconstruction method using Coplanarities and Metric Constraints for Line Laser Scanning. 3DIM 2007: 149-158 - [c16]Ryo Furukawa, Tomoya Itano, Akihiko Morisaka, Hiroshi Kawasaki:
Shape-merging and interpolation using class estimation for unseen voxels with a GPU-based efficient implementation. 3DIM 2007: 289-296 - [c15]Ryo Furukawa, Tomoya Itano, Akihiko Morisaka, Hiroshi Kawasaki:
Improved Space Carving Method for Merging and Interpolating Multiple Range Images Using Information of Light Sources of Active Stereo. ACCV (2) 2007: 206-216 - [c14]Hiroshi Kawasaki, Ryo Furukawa:
Shape Reconstruction from Cast Shadows Using Coplanarities and Metric Constraints. ACCV (2) 2007: 847-857 - [c13]Ryo Furukawa, Hiroshi Kawasaki:
Geometrical Constraint Based 3D Reconstruction using Implicit Coplanarities. BMVC 2007: 1-10 - 2006
- [c12]Ryo Furukawa, Hiroshi Kawasaki:
Self-Calibration of Multiple Laser Planes for 3D Scene Reconstruction. 3DPVT 2006: 200-207 - [c11]Hiroshi Kawasaki, Yutaka Ohsawa, Ryo Furukawa, Yasuaki Nakamura:
Dense 3D Reconstruction with an Uncalibrated Active Stereo System. ACCV (2) 2006: 882-891 - [c10]Hiroshi Kawasaki, Ryo Furukawa, Yasuaki Nakamura:
3D acquisition system using uncalibrated line-laser projec. ICPR (1) 2006: 1071-1075 - 2005
- [c9]Ryo Furukawa, Hiroshi Kawasaki:
Uncalibrated Multiple Image Stereo System with Arbitrarily Movable Camera and Projector for Wide Range Scanning. 3DIM 2005: 302-309 - [c8]Ryo Furukawa, Hiroshi Kawasaki:
Dense 3D Reconstruction with an Uncalibrated Stereo System using Coded Structured Light. CVPR Workshops 2005: 107 - [c7]Hiroshi Kawasaki, Ryo Furukawa:
Uncalibrated active stereo for wide and dense 3D data acquisition. ICIP (3) 2005: 369-372 - [c6]Hiroshi Kawasaki, Kyoung-Dae Seo, Yutaka Ohsawa, Ryo Furukawa:
Patch-based BTF synthesis for real-time rendering. ICIP (1) 2005: 393-396 - 2004
- [c5]Hiroshi Kawasaki, Ryo Furukawa:
Entire Model Acquisition System using Handheld 3D Digitizer. 3DPVT 2004: 478-485 - 2003
- [c4]Ryo Furukawa, Hiroshi Kawasaki:
Interactive Shape Acquisition using Marker Attached Laser Projecto. 3DIM 2003: 491-498 - 2002
- [c3]Ryo Furukawa, Hiroshi Kawasaki, Katsushi Ikeuchi, Masao Sakauchi:
Appearance Based Object Modeling using Texture Database: Acquisition Compression and Rendering. Rendering Techniques 2002: 257-266
1990 – 1999
- 1999
- [j2]Ryo Furukawa, Masakazu Imai, Takeshi Uno:
ATMIQ: active tubes on multiscale image queue. Syst. Comput. Jpn. 30(13): 84-95 (1999) - 1998
- [c2]Yasuaki Nakamura, Hiroyuki Dekihara, Ryo Furukawa:
Spatio-Temporal Data Management for Moving Objects Using the PMD-Tree. ER Workshops 1998: 496-507 - 1997
- [j1]Ryo Furukawa, Masakazu Imai, Takeshi Uno:
An elastic contour model using spatiotemporal solids. Syst. Comput. Jpn. 28(9): 67-76 (1997) - 1996
- [c1]Ryo Furukawa, Masakazu Imai, Takeshi Uno:
Active tubes in multiscale image queue. ICPR 1996: 488-492
Coauthor Index
[j18] [c93] [c92] [i8] [j17] [j16] [c91] [c90] [c89] [c88] [c87] [c86] [i7] [b1] [c85] [c84] [i6] [j15] [c83] [c82] [c81] [c80] [c79] [c78] [i5] [i4] [c77] [c76] [c75] [c74] [c73] [c72] [i3] [i2] [c71] [c70] [c69] [c68] [c67] [i1] [c66] [c65] [c64] [c63] [c62] [c60] [c59] [c58] [j14] [j13] [j12] [c57] [c56] [c55] [c54] [j11] [j10] [c53] [c52] [c51] [c50] [c46] [c44] [c43] [c42] [j9] [j8] [j7] [j6] [c40] [c39] [c38] [c37] [c35] [c34] [c33] [c32] [c31] [c30] [c29] [c28] [c27] [c26] [j5] [j4] [j3] [c25] [c24] [c23] [c21] [c20] [c19] [c18] [c17] [c16] [c15] [c14] [c13] [c12] [c11] [c10] [c9] [c8] [c7] [c6] [c5] [c4] [c3]
[j18] [c93] [c92] [i8] [j17] [j16] [c91] [c90] [c89] [c88] [c87] [b1] [c85] [c84] [i6] [c82] [c76] [c75] [c72] [i3] [c69] [c68] [c66] [c62] [c59] [c58] [j12] [c57] [c56] [c55] [c54] [j11] [j10] [c53] [c52] [c51] [c50] [c46] [c44] [c43] [c42] [j9] [j8] [j7] [j6] [c40] [c39] [c38] [c37] [c35] [c34] [c33] [c32] [c31] [c30] [c29] [c27] [j3] [c23] [c21] [c20] [c18]
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last updated on 2024-12-01 00:18 CET by the dblp team
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