Chaoqun Lin scite author profile

Person reidentification (ReID) is a challenging task of finding a target pedestrian in a gallery set collected from multiple nonoverlapping camera views. Recently, state-of-the-art ReID performance has been achieved via an end-to-end trainable deep neural network framework, which integrates convolution feature extraction, similarity learning and reranking into a joint optimization framework. In such a framework, the similarity is learned via an embedding network, the reranking is conducted with a random walk, and the whole framework is optimized with a cross-entropy-based verification loss. Unfortunately, the embedding net is difficult to train well because their two-dimensional outputs mutually interfere each other when using the conventional random walk. In addition, the supervision information has not been fully exploited during the training phase due to the binary nature of the verification loss. In this paper, we propose a novel approach, called group-shuffling dual random walks with label smoothing (GSDRWLS), in which random walks are performed separately on two channels-one for positive verification and one for negative verificationand the binary verification labels are properly modified with an adaptive label smoothing technique before feeding into the verification loss in order to train the overall network effectively and to avoid the overfitting problem. Extensive experiments conducted on three large benchmark datasets, including CUHK03, Market-1501 and DukeMTMC, confirm the superior performance of our proposal. INDEX TERMS Person reidentification, deep neural network, dual random walks, label smoothing.

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The devil in the tail: Cluster consolidation plus cluster adaptive balancing loss for unsupervised person re-identification

Sun

Lin

et al. 2022

Pattern Recognition

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Learning Convolution Feature Aggregation via Edge Attention Convolution Network for Person Re-Identification

Lin

Guo

et al. 2020

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Chaoqun Lin

PA-GGAN: Session-Based Recommendation with Position-Aware Gated Graph Attention Network

Deep Group-Shuffling Dual Random Walks With Label Smoothing for Person Reidentification

The devil in the tail: Cluster consolidation plus cluster adaptive balancing loss for unsupervised person re-identification

Learning Convolution Feature Aggregation via Edge Attention Convolution Network for Person Re-Identification

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