Recognizing gaits across views through correlated motion co-clustering
Human gait is an important biometric feature, which can be used to identify a person remotely. However, view change can cause significant difficulties for gait recognition because it will alter available visual features for matching substantially. Moreover, it is observed that different parts of gai...
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th-mahidol.336862018-11-09T09:09:29Z Recognizing gaits across views through correlated motion co-clustering Worapan Kusakunniran Qiang Wu Jian Zhang Hongdong Li Liang Wang Mahidol University University of Technology Sydney CSIRO Data61 Australian National University Institute of Automation Chinese Academy of Sciences Computer Science Human gait is an important biometric feature, which can be used to identify a person remotely. However, view change can cause significant difficulties for gait recognition because it will alter available visual features for matching substantially. Moreover, it is observed that different parts of gait will be affected differently by view change. By exploring relations between two gaits from two different views, it is also observed that a part of gait in one view is more related to a typical part than any other parts of gait in another view. A new method proposed in this paper considers such variance of correlations between gaits across views that is not explicitly analyzed in the other existing methods. In our method, a novel motion co-clustering is carried out to partition the most related parts of gaits from different views into the same group. In this way, relationships between gaits from different views will be more precisely described based on multiple groups of the motion co-clustering instead of a single correlation descriptor. Inside each group, a linear correlation between gait information across views is further maximized through canonical correlation analysis (CCA). Consequently, gait information in one view can be projected onto another view through a linear approximation under the trained CCA subspaces. In the end, a similarity between gaits originally recorded from different views can be measured under the approximately same view. Comprehensive experiments based on widely adopted gait databases have shown that our method outperforms the state-of-the-art. © 2013 IEEE. 2018-11-09T02:09:29Z 2018-11-09T02:09:29Z 2014-02-01 Article IEEE Transactions on Image Processing. Vol.23, No.2 (2014), 696-709 10.1109/TIP.2013.2294552 10577149 2-s2.0-84892596841 https://repository.li.mahidol.ac.th/handle/123456789/33686 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84892596841&origin=inward |
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Computer Science Worapan Kusakunniran Qiang Wu Jian Zhang Hongdong Li Liang Wang Recognizing gaits across views through correlated motion co-clustering |
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Human gait is an important biometric feature, which can be used to identify a person remotely. However, view change can cause significant difficulties for gait recognition because it will alter available visual features for matching substantially. Moreover, it is observed that different parts of gait will be affected differently by view change. By exploring relations between two gaits from two different views, it is also observed that a part of gait in one view is more related to a typical part than any other parts of gait in another view. A new method proposed in this paper considers such variance of correlations between gaits across views that is not explicitly analyzed in the other existing methods. In our method, a novel motion co-clustering is carried out to partition the most related parts of gaits from different views into the same group. In this way, relationships between gaits from different views will be more precisely described based on multiple groups of the motion co-clustering instead of a single correlation descriptor. Inside each group, a linear correlation between gait information across views is further maximized through canonical correlation analysis (CCA). Consequently, gait information in one view can be projected onto another view through a linear approximation under the trained CCA subspaces. In the end, a similarity between gaits originally recorded from different views can be measured under the approximately same view. Comprehensive experiments based on widely adopted gait databases have shown that our method outperforms the state-of-the-art. © 2013 IEEE. |
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Mahidol University Worapan Kusakunniran Qiang Wu Jian Zhang Hongdong Li Liang Wang |
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Article |
| author |
Worapan Kusakunniran Qiang Wu Jian Zhang Hongdong Li Liang Wang |
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Worapan Kusakunniran |
| title |
Recognizing gaits across views through correlated motion co-clustering |
| title_short |
Recognizing gaits across views through correlated motion co-clustering |
| title_full |
Recognizing gaits across views through correlated motion co-clustering |
| title_fullStr |
Recognizing gaits across views through correlated motion co-clustering |
| title_full_unstemmed |
Recognizing gaits across views through correlated motion co-clustering |
| title_sort |
recognizing gaits across views through correlated motion co-clustering |
| publishDate |
2018 |
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https://repository.li.mahidol.ac.th/handle/123456789/33686 |
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