3D Dental Biometrics: Automatic Pose-invariant Dental Arch Extraction and Matching
A novel automatic pose-invariant dental arch extraction and matching framework is developed for 3D dental identification using laser-scanned dental plasters. In our previous attempt [1]-[5], 3D point-based algorithms have been developed and they have shown a few advantages over existing 2D dental id...
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| Published in | 2020 25th International Conference on Pattern Recognition (ICPR) pp. 6524 - 6530 |
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| Main Authors | , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
10.01.2021
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| Subjects | |
| Online Access | Get full text |
| DOI | 10.1109/ICPR48806.2021.9412829 |
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| Abstract | A novel automatic pose-invariant dental arch extraction and matching framework is developed for 3D dental identification using laser-scanned dental plasters. In our previous attempt [1]-[5], 3D point-based algorithms have been developed and they have shown a few advantages over existing 2D dental identifications. This study is a continuous effort in developing arch-based algorithms to extract and match dental arch feature in an automatic and pose-invariant way. As best as we know, this is the first attempt at automatic dental arch extraction and matching for 3D dental identification. A Radial Ray Algorithm (RRA) is proposed by projecting dental arch shape from 3D to 2D. This algorithm is fully automatic and fast. Preliminary identification result is obtained by matching 11 postmortem (PM) samples against 200 ante-mortem (AM) samples. 72.7% samples achieved top 5% accuracy. 90.9% samples achieved top 10% accuracy and all 11 samples (100%) achieved top 15.5% accuracy out of the 200-rank list. In addition, the time for identifying a single subject from 200 subjects has been significantly reduced from 45 minutes to 5 minutes by matching the extracted 2D dental arch. Although the extracted 2D arch feature is not as accurate and discriminative as the full 3D arch, it may serve as an important filter feature to improve the identification speed in future investigations. |
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| AbstractList | A novel automatic pose-invariant dental arch extraction and matching framework is developed for 3D dental identification using laser-scanned dental plasters. In our previous attempt [1]-[5], 3D point-based algorithms have been developed and they have shown a few advantages over existing 2D dental identifications. This study is a continuous effort in developing arch-based algorithms to extract and match dental arch feature in an automatic and pose-invariant way. As best as we know, this is the first attempt at automatic dental arch extraction and matching for 3D dental identification. A Radial Ray Algorithm (RRA) is proposed by projecting dental arch shape from 3D to 2D. This algorithm is fully automatic and fast. Preliminary identification result is obtained by matching 11 postmortem (PM) samples against 200 ante-mortem (AM) samples. 72.7% samples achieved top 5% accuracy. 90.9% samples achieved top 10% accuracy and all 11 samples (100%) achieved top 15.5% accuracy out of the 200-rank list. In addition, the time for identifying a single subject from 200 subjects has been significantly reduced from 45 minutes to 5 minutes by matching the extracted 2D dental arch. Although the extracted 2D arch feature is not as accurate and discriminative as the full 3D arch, it may serve as an important filter feature to improve the identification speed in future investigations. |
| Author | Zhong, Xin Zhang, Zhiyuan |
| Author_xml | – sequence: 1 givenname: Xin surname: Zhong fullname: Zhong, Xin email: andreayoung123@gmail.com organization: Institute of High Performance Computing, Agency for Science, Technology and Research (ASTAR),Social Cognitive Computing Department,Fusionopolis,Singapore,138632 – sequence: 2 givenname: Zhiyuan surname: Zhang fullname: Zhang, Zhiyuan email: cszyzhang@gmail.com organization: Digital Manufacturing and Design Centre, Singapore University of Technology and Design,Singapore,487372 |
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| Snippet | A novel automatic pose-invariant dental arch extraction and matching framework is developed for 3D dental identification using laser-scanned dental plasters.... |
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| SubjectTerms | 3D dental biometrics Biometrics (access control) dental arch Dentistry Feature extraction Filtering algorithms human identification Matched filters Radial Ray Algorithm (RRA) Shape Three-dimensional displays |
| Title | 3D Dental Biometrics: Automatic Pose-invariant Dental Arch Extraction and Matching |
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