Attention-disentangled Uniform Orthogonal Feature Space Optimization for Few-shot Object Detection
- URL: http://arxiv.org/abs/2506.22161v1
- Date: Fri, 27 Jun 2025 12:17:04 GMT
- Title: Attention-disentangled Uniform Orthogonal Feature Space Optimization for Few-shot Object Detection
- Authors: Taijin Zhao, Heqian Qiu, Yu Dai, Lanxiao Wang, Fanman Meng, Qingbo Wu, Hongliang Li,
- Abstract summary: Few-shot object detection (FSOD) aims to detect objects with limited samples for novel classes.<n>Existing FSOD approaches, predominantly built on the Faster R-CNN detector, entangle objectness recognition and foreground classification within shared feature spaces.<n>We propose a Uniform Orthogonal Feature Space (UOFS) optimization framework to transfer class-agnostic objectness knowledge from base classes to novel classes.
- Score: 20.748630029722257
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: Few-shot object detection (FSOD) aims to detect objects with limited samples for novel classes, while relying on abundant data for base classes. Existing FSOD approaches, predominantly built on the Faster R-CNN detector, entangle objectness recognition and foreground classification within shared feature spaces. This paradigm inherently establishes class-specific objectness criteria and suffers from unrepresentative novel class samples. To resolve this limitation, we propose a Uniform Orthogonal Feature Space (UOFS) optimization framework. First, UOFS decouples the feature space into two orthogonal components, where magnitude encodes objectness and angle encodes classification. This decoupling enables transferring class-agnostic objectness knowledge from base classes to novel classes. Moreover, implementing the disentanglement requires careful attention to two challenges: (1) Base set images contain unlabeled foreground instances, causing confusion between potential novel class instances and backgrounds. (2) Angular optimization depends exclusively on base class foreground instances, inducing overfitting of angular distributions to base classes. To address these challenges, we propose a Hybrid Background Optimization (HBO) strategy: (1) Constructing a pure background base set by removing unlabeled instances in original images to provide unbiased magnitude-based objectness supervision. (2) Incorporating unlabeled foreground instances in the original base set into angular optimization to enhance distribution uniformity. Additionally, we propose a Spatial-wise Attention Disentanglement and Association (SADA) module to address task conflicts between class-agnostic and class-specific tasks. Experiments demonstrate that our method significantly outperforms existing approaches based on entangled feature spaces.
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