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Inverse Image Frequency for Long-Tailed Image Recognition

Konstantinos Panagiotis Alexandridis, Shan Luo, Anh Nguyen, Jiankang Deng, Stefanos Zafeiriou

2023IEEE Transactions on Image Processing20 citationsDOI

Abstract

The long-tailed distribution is a common phenomenon in the real world. Extracted large scale image datasets inevitably demonstrate the long-tailed property and models trained with imbalanced data can obtain high performance for the over-represented categories, but struggle for the under-represented categories, leading to biased predictions and performance degradation. To address this challenge, we propose a novel de-biasing method named Inverse Image Frequency (IIF). IIF is a multiplicative margin adjustment transformation of the logits in the classification layer of a convolutional neural network. Our method achieves stronger performance than similar works and it is especially useful for downstream tasks such as long-tailed instance segmentation as it produces fewer false positive detections. Our extensive experiments show that IIF surpasses the state of the art on many long-tailed benchmarks such as ImageNet-LT, CIFAR-LT, Places-LT and LVIS, reaching 55.8% top-1 accuracy with ResNet50 on ImageNet-LT and 26.3% segmentation AP with MaskRCNN ResNet50 on LVIS. Code available at https://github.com/kostas1515/iif.

Topics & Concepts

Artificial intelligenceComputer sciencePattern recognition (psychology)Convolutional neural networkImage (mathematics)SegmentationMargin (machine learning)Code (set theory)Transformation (genetics)Machine learningBiochemistryGeneSet (abstract data type)ChemistryProgramming languageAdvanced Neural Network ApplicationsDomain Adaptation and Few-Shot LearningDigital Imaging for Blood Diseases
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