Go to DBLP homepageIDENet: An Inter-Domain Equilibrium Network for Unsupervised Cross-Domain Person Re-Identification
Abstract: Unsupervised person re-identification aims to retrieve a given pedestrian image from unlabeled data. For training on the unlabeled data, the method of clustering and assigning pseudo-labels has become mainstream, but the pseudo-labels themselves are noisy and will reduce the accuracy. To overcome this problem, several pseudo-label improvement methods have been proposed. But on the one hand, they only use target domain data for fine-tuning and do not make sufficient use of high-quality labeled data in the source domain. On the other hand, they ignore the critical fine-grained features of pedestrians and overfitting problems in the later training period. In this paper, we propose a novel unsupervised cross-domain person re-identification network (IDENet) based on an inter-domain equilibrium structure to improve the quality of pseudo-labels. Specifically, we make full use of both source domain and target domain information and construct a small learning network to equalize label allocation between the two domains. Based on it, we also develop a dynamic neural network with adaptive convolution kernels to generate adaptive residuals for adapting domain-agnostic deep fine-grained features. In addition, we design the network structure based on ordinary differential equations and embed modules to solve the problem of network overfitting. Extensive cross-domain experimental results on Market1501, PersonX, and MSMT17 prove that our proposed method outperforms the state-of-the-art methods.
External IDs:dblp:journals/tip/YangDZWG25
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