Part-based Deep Hashing for Large-scale Person Re-identification
May 05, 2017 Β· Declared Dead Β· π IEEE Transactions on Image Processing
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Authors
Fuqing Zhu, Xiangwei Kong, Liang Zheng, Haiyan Fu, Qi Tian
arXiv ID
1705.02145
Category
cs.CV: Computer Vision
Citations
88
Venue
IEEE Transactions on Image Processing
Last Checked
4 months ago
Abstract
Large-scale is a trend in person re-identification (re-id). It is important that real-time search be performed in a large gallery. While previous methods mostly focus on discriminative learning, this paper makes the attempt in integrating deep learning and hashing into one framework to evaluate the efficiency and accuracy for large-scale person re-id. We integrate spatial information for discriminative visual representation by partitioning the pedestrian image into horizontal parts. Specifically, Part-based Deep Hashing (PDH) is proposed, in which batches of triplet samples are employed as the input of the deep hashing architecture. Each triplet sample contains two pedestrian images (or parts) with the same identity and one pedestrian image (or part) of the different identity. A triplet loss function is employed with a constraint that the Hamming distance of pedestrian images (or parts) with the same identity is smaller than ones with the different identity. In the experiment, we show that the proposed Part-based Deep Hashing method yields very competitive re-id accuracy on the large-scale Market-1501 and Market-1501+500K datasets.
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