Looking Alike From Far to Near: Enhancing Cross-Resolution Re-Identification via Feature Vector Panning

• URL: http://arxiv.org/abs/2510.00936v1
• Date: Wed, 01 Oct 2025 14:15:39 GMT
• Title: Looking Alike From Far to Near: Enhancing Cross-Resolution Re-Identification via Feature Vector Panning
• Authors: Zanwu Liu, Chao Yuan, Bo Li, Xiaowei Zhang, Guanglin Niu,
• Abstract summary: Cross-Resolution ReID (CR-ReID) methods rely on super-resolution (SR) or joint learning for feature compensation.<n>Inspired by semantic directions in the word embedding space, we empirically discover that semantic directions implying resolution differences also emerge in the feature space of ReID.<n>We propose a lightweight and effective Vector Panning Feature Alignment (VPFA) framework, which conducts CR-ReID from a novel perspective.
• Score: 14.89776496894534
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: In surveillance scenarios, varying camera distances cause significant differences among pedestrian image resolutions, making it hard to match low-resolution (LR) images with high-resolution (HR) counterparts, limiting the performance of Re-Identification (ReID) tasks. Most existing Cross-Resolution ReID (CR-ReID) methods rely on super-resolution (SR) or joint learning for feature compensation, which increases training and inference complexity and has reached a performance bottleneck in recent studies. Inspired by semantic directions in the word embedding space, we empirically discover that semantic directions implying resolution differences also emerge in the feature space of ReID, and we substantiate this finding from a statistical perspective using Canonical Correlation Analysis and Pearson Correlation Analysis. Based on this interesting finding, we propose a lightweight and effective Vector Panning Feature Alignment (VPFA) framework, which conducts CR-ReID from a novel perspective of modeling the resolution-specific feature discrepancy. Extensive experimental results on multiple CR-ReID benchmarks show that our method significantly outperforms previous state-of-the-art baseline models while obtaining higher efficiency, demonstrating the effectiveness and superiority of our model based on the new finding in this paper.

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