Abstract

Striving to match the person identities between visible (VIS) and near-infrared (NIR) images, VIS-NIR reidentification (Re-ID) has attracted increasing attention due to its wide applications in low-light scenes. However, owing to the modality and pose discrepancies exhibited in heterogeneous images, the extracted representations inevitably comprise various modality and posture factors, impacting the matching of cross-modality person identity. To solve the problem, we propose a disentangling modality and posture factors (DMPFs) model to disentangle modality and posture factors by fusing the information of features memory and pedestrian skeleton. Specifically, the DMPF comprises three modules: three-stream features extraction network (TFENet), modality factor disentanglement (MFD), and posture factor disentanglement (PFD). First, aiming to provide memory and skeleton information for modality and posture factors disentanglement, the TFENet is designed as a three-stream network to extract VIS-NIR image features and skeleton features. Second, to eliminate modality discrepancy across different batches, we maintain memory queues of previous batch features through the momentum updating mechanism and propose MFD to integrate features in the whole training set by memory-attention layers. These layers explore intramodality and intermodality relationships between features from the current batch and memory queues under the optimization of the optimal transport (OT) method, which encourages the heterogeneous features with the same identity to present higher similarity. Third, to decouple the posture factors from representations, we introduce the PFD module to learn posture-unrelated features with the assistance of the skeleton features. Besides, we perform subspace orthogonal decomposition on both image and skeleton features to separate the posture-related and identity-related information. The posture-related features are adopted to disentangle the posture factors from representations by a designed posture-features consistency (PfC) loss, while the identity-related features are concatenated to obtain more discriminative identity representations. The effectiveness of DMPF is validated through comprehensive experiments on two VIS-NIR pedestrian Re-ID datasets.

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