Litcius/Paper detail

A simple scheme to amplify inter-class discrepancy for improving few-shot fine-grained image classification

Xiaoxu Li, Zijie Guo, Rui Zhu, Zhanyu Ma, Jun Guo, Jing‐Hao Xue

2024Pattern Recognition12 citationsDOIOpen Access PDF

Abstract

Few-shot image classification is a challenging topic in pattern recognition and computer vision. Few-shot fine-grained image classification is even more challenging, due to not only the few shots of labelled samples but also the subtle differences to distinguish subcategories in fine-grained images. A recent method called task discrepancy maximisation (TDM) can be embedded into the feature map reconstruction network (FRN) to generate discriminative features, by preserving the appearance details through reconstructing the query image and then assigning higher weights to more discriminative channels, producing the state-of-the-art performance for few-shot fine-grained image classification. However, due to the small inter-class discrepancy in fine-grained images and the small training set in few-shot learning, the training of FRN+TDM can result in excessively flexible boundaries between subcategories and hence overfitting. To resolve this problem, we propose a simple scheme to amplify inter-class discrepancy and thus improve FRN+TDM. To achieve this aim, instead of developing new modules, our scheme only involves two simple amendments to FRN+TDM: relaxing the inter-class score in TDM, and adding a centre loss to FRN. Extensive experiments on five benchmark datasets showcase that, although embarrassingly simple, our scheme is quite effective to improve the performance of few-shot fine-grained image classification. The code is available at https://github.com/Airgods/AFRN.git.

Topics & Concepts

OverfittingDiscriminative modelComputer scienceArtificial intelligenceBenchmark (surveying)Class (philosophy)Pattern recognition (psychology)Feature (linguistics)Shot (pellet)Image (mathematics)Contextual image classificationScheme (mathematics)Set (abstract data type)Machine learningArtificial neural networkMathematicsMathematical analysisProgramming languagePhilosophyOrganic chemistryGeodesyLinguisticsGeographyChemistryDomain Adaptation and Few-Shot LearningAdvanced Neural Network ApplicationsCOVID-19 diagnosis using AI