Accurate, Dense, and Robust Multiview Stereopsis
This paper proposes a novel algorithm for multiview stereopsis that outputs a dense set of small rectangular patches covering the surfaces visible in the images. Stereopsis is implemented as a match, expand, and filter procedure, starting from a sparse set of matched keypoints, and repeatedly expand...
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| Published in: | IEEE transactions on pattern analysis and machine intelligence Vol. 32; no. 8; pp. 1362 - 1376 |
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| Main Authors: | , |
| Format: | Journal Article |
| Language: | English |
| Published: |
Los Alamitos, CA
IEEE
01.08.2010
IEEE Computer Society The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects: | |
| ISSN: | 0162-8828, 1939-3539, 1939-3539 |
| Online Access: | Get full text |
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| Abstract | This paper proposes a novel algorithm for multiview stereopsis that outputs a dense set of small rectangular patches covering the surfaces visible in the images. Stereopsis is implemented as a match, expand, and filter procedure, starting from a sparse set of matched keypoints, and repeatedly expanding these before using visibility constraints to filter away false matches. The keys to the performance of the proposed algorithm are effective techniques for enforcing local photometric consistency and global visibility constraints. Simple but effective methods are also proposed to turn the resulting patch model into a mesh which can be further refined by an algorithm that enforces both photometric consistency and regularization constraints. The proposed approach automatically detects and discards outliers and obstacles and does not require any initialization in the form of a visual hull, a bounding box, or valid depth ranges. We have tested our algorithm on various data sets including objects with fine surface details, deep concavities, and thin structures, outdoor scenes observed from a restricted set of viewpoints, and "crowded" scenes where moving obstacles appear in front of a static structure of interest. A quantitative evaluation on the Middlebury benchmark [1] shows that the proposed method outperforms all others submitted so far for four out of the six data sets. |
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| AbstractList | This paper proposes a novel algorithm for multiview stereopsis that outputs a dense set of small rectangular patches covering the surfaces visible in the images. Stereopsis is implemented as a match, expand, and filter procedure, starting from a sparse set of matched keypoints, and repeatedly expanding these before using visibility constraints to filter away false matches. The keys to the performance of the proposed algorithm are effective techniques for enforcing local photometric consistency and global visibility constraints. Simple but effective methods are also proposed to turn the resulting patch model into a mesh which can be further refined by an algorithm that enforces both photometric consistency and regularization constraints. The proposed approach automatically detects and discards outliers and obstacles and does not require any initialization in the form of a visual hull, a bounding box, or valid depth ranges. We have tested our algorithm on various data sets including objects with fine surface details, deep concavities, and thin structures, outdoor scenes observed from a restricted set of viewpoints, and "crowded" scenes where moving obstacles appear in front of a static structure of interest. A quantitative evaluation on the Middlebury benchmark [1] shows that the proposed method outperforms all others submitted so far for four out of the six data sets. This paper proposes a novel algorithm for multiview stereopsis that outputs a dense set of small rectangular patches covering the surfaces visible in the images. Stereopsis is implemented as a match, expand, and filter procedure, starting from a sparse set of matched keypoints, and repeatedly expanding these before using visibility constraints to filter away false matches. The keys to the performance of the proposed algorithm are effective techniques for enforcing local photometric consistency and global visibility constraints. Simple but effective methods are also proposed to turn the resulting patch model into a mesh which can be further refined by an algorithm that enforces both photometric consistency and regularization constraints. The proposed approach automatically detects and discards outliers and obstacles and does not require any initialization in the form of a visual hull, a bounding box, or valid depth ranges. We have tested our algorithm on various data sets including objects with fine surface details, deep concavities, and thin structures, outdoor scenes observed from a restricted set of viewpoints, and "crowded" scenes where moving obstacles appear in front of a static structure of interest. A quantitative evaluation on the Middlebury benchmark shows that the proposed method outperforms all others submitted so far for four out of the six data sets.This paper proposes a novel algorithm for multiview stereopsis that outputs a dense set of small rectangular patches covering the surfaces visible in the images. Stereopsis is implemented as a match, expand, and filter procedure, starting from a sparse set of matched keypoints, and repeatedly expanding these before using visibility constraints to filter away false matches. The keys to the performance of the proposed algorithm are effective techniques for enforcing local photometric consistency and global visibility constraints. Simple but effective methods are also proposed to turn the resulting patch model into a mesh which can be further refined by an algorithm that enforces both photometric consistency and regularization constraints. The proposed approach automatically detects and discards outliers and obstacles and does not require any initialization in the form of a visual hull, a bounding box, or valid depth ranges. We have tested our algorithm on various data sets including objects with fine surface details, deep concavities, and thin structures, outdoor scenes observed from a restricted set of viewpoints, and "crowded" scenes where moving obstacles appear in front of a static structure of interest. A quantitative evaluation on the Middlebury benchmark shows that the proposed method outperforms all others submitted so far for four out of the six data sets. This paper proposes a novel algorithm for multiview stereopsis that outputs a dense set of small rectangular patches covering the surfaces visible in the images. Stereopsis is implemented as a match, expand, and filter procedure, starting from a sparse set of matched keypoints, and repeatedly expanding these before using visibility constraints to filter away false matches. The keys to the performance of the proposed algorithm are effective techniques for enforcing local photometric consistency and global visibility constraints. Simple but effective methods are also proposed to turn the resulting patch model into a mesh which can be further refined by an algorithm that enforces both photometric consistency and regularization constraints. The proposed approach automatically detects and discards outliers and obstacles and does not require any initialization in the form of a visual hull, a bounding box, or valid depth ranges. We have tested our algorithm on various data sets including objects with fine surface details, deep concavities, and thin structures, outdoor scenes observed from a restricted set of viewpoints, and "crowded" scenes where moving obstacles appear in front of a static structure of interest. A quantitative evaluation on the Middlebury benchmark shows that the proposed method outperforms all others submitted so far for four out of the six data sets. This paper proposes a novel algorithm for multiview stereopsis that outputs a dense set of small rectangular patches covering the surfaces visible in the images. Stereopsis is implemented as a match, expand, and filter procedure, starting from a sparse set of matched keypoints, and repeatedly expanding these before using visibility constraints to filter away false matches. The keys to the performance of the proposed algorithm are effective techniques for enforcing local photometric consistency and global visibility constraints. Simple but effective methods are also proposed to turn the resulting patch model into a mesh which can be further refined by an algorithm that enforces both photometric consistency and regularization constraints. The proposed approach automatically detects and discards outliers and obstacles and does not require any initialization in the form of a visual hull, a bounding box, or valid depth ranges. We have tested our algorithm on various data sets including objects with fine surface details, deep concavities, and thin structures, outdoor scenes observed from a restricted set of viewpoints, and "crowded" scenes where moving obstacles appear in front of a static structure of interest. A quantitative evaluation on the Middlebury benchmark [CHECK END OF SENTENCE] shows that the proposed method outperforms all others submitted so far for four out of the six data sets. |
| Author | Ponce, Jean Furukawa, Yasutaka |
| Author_xml | – sequence: 1 givenname: Yasutaka surname: Furukawa fullname: Furukawa, Yasutaka email: fiirukawa@cs.washington.edu organization: Google Inc., Seattle, WA, USA – sequence: 2 givenname: Jean surname: Ponce fullname: Ponce, Jean email: Jean.Ponce@ens.fr organization: Willow project-team of LIENS, Ecole Normale Super., Paris, France |
| BackLink | http://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=23119188$$DView record in Pascal Francis https://www.ncbi.nlm.nih.gov/pubmed/20558871$$D View this record in MEDLINE/PubMed |
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| CODEN | ITPIDJ |
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| References | ref35 ref12 ref15 ref37 ref14 ref31 ref30 ref11 ref10 ref32 Kushal (ref24); 2 Strecha (ref36) 2010 ref2 Scharstein (ref38) 2002; 47 ref17 ref39 ref16 ref19 Habbecke (ref18) Naylor (ref28) 2010 Baumgart (ref13) 1974 Furukawa (ref25) 2010 Kazhdan (ref29) ref23 Paris (ref4) ref26 ref22 ref21 ref27 Campbell (ref34) ref8 ref7 ref9 ref3 ref6 ref5 Carceroni (ref20) 2002; 49 Seitz (ref1) 2010 Zach (ref33) |
| References_xml | – volume-title: Proc. 3D Data Processing, Visualization and Transmission ident: ref33 article-title: Fast and High Quality Fusion of Depth Maps – ident: ref2 doi: 10.1109/CVPR.2006.19 – ident: ref5 doi: 10.1007/s11263-006-8671-5 – volume-title: Proc. Asian Conf. Computer Vision ident: ref4 article-title: A Surface Reconstruction Method Using Global Graph Cut Optimization doi: 10.1007/s11263-005-3953-x – volume-title: Proc. European Conf. Computer Vision ident: ref34 article-title: Multiple Hypotheses Depth-Maps for Multi-View Stereo – ident: ref19 doi: 10.1016/j.cag.2004.08.009 – volume: 2 start-page: 563 volume-title: Proc. European Conf. Computer Vision ident: ref24 article-title: A Novel Approach to Modeling 3D Objects from Stereo Views and Recognizing them in Photographs – ident: ref21 doi: 10.1109/ICCV.2007.4408933 – ident: ref16 doi: 10.1109/CVPR.2008.4587792 – ident: ref23 doi: 10.1007/978-3-540-24670-1_4 – ident: ref35 doi: 10.1109/CVPR.2008.4587706 – year: 2010 ident: ref36 article-title: Multi-View Evaluation – volume-title: Proc. 11th Fall Workshop Vision, Modeling, and Visualization ident: ref18 article-title: Iterative Multi-View Plane Fitting – ident: ref37 doi: 10.1109/CVPR.2004.1315080 – volume-title: Proc. Symp. Geometry Processing ident: ref29 article-title: Poisson Surface Reconstruction – volume: 47 start-page: 7 issue: 1-3 year: 2002 ident: ref38 article-title: A Taxonomy and Evaluation of Dense Two-Frame Stereo Correspondence Algorithms publication-title: Int’l J. Computer Vision doi: 10.1023/A:1014573219977 – ident: ref6 doi: 10.1007/11744047_17 – ident: ref9 doi: 10.1109/ICCV.2007.4408997 – ident: ref27 doi: 10.1109/CVPR.2008.4587673 – ident: ref30 doi: 10.1145/166117.166119 – ident: ref15 doi: 10.1109/CVPR.2006.78 – ident: ref3 doi: 10.1109/83.661183 – ident: ref7 doi: 10.1109/CVPR.2005.238 – ident: ref22 doi: 10.1016/0262-8856(89)90001-2 – ident: ref12 doi: 10.1007/s11263-008-0134-8 – volume: 49 start-page: 175 issue: 2-3 year: 2002 ident: ref20 article-title: Multi-View Scene Capture by Surfel Sampling: From Video Streams to Non-Rigid 3D Motion, Shape and Reflectance publication-title: Int’l J. Computer Vision doi: 10.1023/A:1020145606604 – ident: ref17 doi: 10.1109/TPAMI.2005.44 – year: 2010 ident: ref1 article-title: Multi-View Stereo Evaluation – year: 2010 ident: ref28 article-title: Wnlib – ident: ref10 doi: 10.1016/j.cviu.2004.03.016 – year: 1974 ident: ref13 article-title: Geometric Modeling for Computer Vision – ident: ref32 doi: 10.1109/TPAMI.2008.104 – ident: ref14 doi: 10.1109/CVPR.2006.199 – year: 2010 ident: ref25 article-title: PMVS – ident: ref39 doi: 10.1109/CVPR.2007.383193 – ident: ref8 doi: 10.1109/CVPR.2006.135 – ident: ref11 doi: 10.1007/978-3-540-76390-1_17 – ident: ref31 doi: 10.1109/TPAMI.2007.70712 – ident: ref26 doi: 10.1109/CVPR.2007.383246 |
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| Title | Accurate, Dense, and Robust Multiview Stereopsis |
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