Abstract
Gait-based features provide the potential for a subject to be recognized even from a low-resolution image sequence, and they can be captured at a distance without the subject’s cooperation. Person recognition using gait-based features (gait recognition) is a promising real-life application. However, several body parts of the subjects are often occluded because of beams, pillars, cars and trees, or another walking person. Therefore, gait-based features are not applicable to approaches that require an unoccluded gait image sequence. Occlusion handling is a challenging but important issue for gait recognition. In this paper, we propose silhouette sequence reconstruction from an occluded sequence (sVideo) based on a conditional deep generative adversarial network (GAN). From the reconstructed sequence, we estimate the gait cycle and extract the gait features from a one gait cycle image sequence. To regularize the training of the proposed generative network, we use adversarial loss based on triplet hinge loss incorporating Wasserstein GAN (WGAN-hinge). To the best of our knowledge, WGAN-hinge is the first adversarial loss that supervises the generator network during training by incorporating pairwise similarity ranking information. The proposed approach was evaluated on multiple challenging occlusion patterns. The experimental results demonstrate that the proposed approach outperforms the existing state-of-the-art benchmarks.
Highlights
Biometric-based person authentication is becoming increasingly important for various applications, such as access control, visual surveillance, and forensics
5 Conclusion and future work We focused on gait recognition where all frames in a sequence were occluded
We proposed an approach based on deep conditional generative adversarial network (GAN) that consisted of a generator and critic networks
Summary
Biometric-based person authentication is becoming increasingly important for various applications, such as access control, visual surveillance, and forensics. Gait recognition is one of the topics of active interest in the biometric research community because it provides unique advantages over other biometric features, such as the face, iris, and fingerprints. It can be captured without the subject’s cooperation at a distance and has discriminative capability from relatively low-resolution image sequences [36]. Gait has been used as a forensic feature, and there has already been a conviction produced by gait analysis [14].
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More From: IPSJ Transactions on Computer Vision and Applications
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