SIM-OFE:用于细粒度视觉分类的结构信息挖掘和对象感知特征增强技术

Hongbo Sun;Xiangteng He;Jinglin Xu;Yuxin Peng
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摘要

细粒度视觉分类(FGVC)旨在将视觉对象从粗粒度类别的多个子类别中区分出来。不同子类别之间微妙的类间差异使 FGVC 任务更具挑战性。现有方法主要侧重于学习突出的视觉模式,而忽略了如何捕捉对象的内部结构,导致难以获得对象内部完整的分辨区域,从而限制了 FGVC 的性能。针对上述问题,我们提出了一种用于细粒度视觉分类的结构信息挖掘和对象感知特征增强(SIM-OFE)方法,该方法可以挖掘视觉对象的内部结构组成和外观特征。具体来说,我们首先提出了一个简单而有效的混合感知注意力模块,用于基于全局范围和局部范围的重要性分析来定位视觉对象。然后,我们提出了一个结构信息挖掘模块,对物体内部关键区域的分布和上下文关系进行建模,突出整个物体和用于区分细微差别的鉴别区域。最后,我们还提出了一个对象感知特征增强模块,以细心耦合的方式将全局范围和局部范围的判别特征结合起来,从而在细粒度识别中实现强大的视觉表征。在三个 FGVC 基准数据集上进行的广泛实验证明,我们提出的 SIM-OFE 方法可以达到最先进的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
SIM-OFE: Structure Information Mining and Object-Aware Feature Enhancement for Fine-Grained Visual Categorization
Fine-grained visual categorization (FGVC) aims to distinguish visual objects from multiple subcategories of the coarse-grained category. Subtle inter-class differences among various subcategories make the FGVC task more challenging. Existing methods primarily focus on learning salient visual patterns while ignoring how to capture the object’s internal structure, causing difficulty in obtaining complete discriminative regions within the object to limit FGVC performance. To address the above issue, we propose a Structure Information Mining and Object-aware Feature Enhancement (SIM-OFE) method for fine-grained visual categorization, which explores the visual object’s internal structure composition and appearance traits. Concretely, we first propose a simple yet effective hybrid perception attention module for locating visual objects based on global-scope and local-scope significance analyses. Then, a structure information mining module is proposed to model the distribution and context relation of critical regions within the object, highlighting the whole object and discriminative regions for distinguishing subtle differences. Finally, an object-aware feature enhancement module is proposed to combine global-scope and local-scope discriminative features in an attentive coupling way for powerful visual representations in fine-grained recognition. Extensive experiments on three FGVC benchmark datasets demonstrate that our proposed SIM-OFE method can achieve state-of-the-art performance.
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