Enhancing the Generalization Performance of Few-Shot Image Classification with Self-Knowledge Distillation

IF 1.2 4区计算机科学 Q4 AUTOMATION & CONTROL SYSTEMS

Studies in Informatics and Control Pub Date : 2022-06-30 DOI:10.24846/v31i2y202207

Liang Li, Weidong Jin, Yingkun Huang, Junxiao Ren

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引用次数: 0

Abstract

: Though deep learning has succeeded in various fields, its performance on tasks without a large-scale dataset is always unsatisfactory. The meta-learning based few-shot learning has been used to address the limited data situation. Because of its fast adaptation to the new concepts, meta-learning fully utilizes the prior transferrable knowledge to recognize the unseen instances. The general belief is that meta-learning leverages a large quantity of few-shot tasks sampled from the base dataset to quickly adapt the learner to an unseen task. In this paper, the teacher model is distilled to transfer the features using the same architecture. Following the standard-setting in few-shot learning, the proposed model was trained from scratch and the distribution was transferred to a better generalization. Feature similarity matching was proposed to compensate for the inner feature similarities. Besides, the prediction from the teacher model was further corrected in the self-knowledge distillation period. The proposed approach was evaluated on several commonly used benchmarks in few-shot learning and performed best among all prior works.

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利用自知识精馏提高小样本图像分类的泛化性能

：尽管深度学习在各个领域都取得了成功，但在没有大规模数据集的情况下，它在任务中的表现总是令人不满意。基于元学习的少镜头学习已被用于解决数据有限的情况。由于元学习对新概念的快速适应，它充分利用了先前可转移的知识来识别看不见的实例。人们普遍认为，元学习利用了从基本数据集中采样的大量少镜头任务，使学习者快速适应看不见的任务。在本文中，教师模型被提炼出来，以使用相同的架构来传递特征。根据少镜头学习中的标准设置，从零开始训练所提出的模型，并将分布转换为更好的泛化。提出了一种特征相似度匹配方法来补偿内部特征相似度。此外，教师模型的预测在自学阶段得到了进一步的修正。所提出的方法在少镜头学习中的几个常用基准上进行了评估，在所有先前的工作中表现最好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Studies in Informatics and Control AUTOMATION & CONTROL SYSTEMS-OPERATIONS RESEARCH & MANAGEMENT SCIENCE

CiteScore

2.70

自引率

25.00%

发文量

审稿时长

>12 weeks

期刊介绍： Studies in Informatics and Control journal provides important perspectives on topics relevant to Information Technology, with an emphasis on useful applications in the most important areas of IT. This journal is aimed at advanced practitioners and researchers in the field of IT and welcomes original contributions from scholars and professionals worldwide. SIC is published both in print and online by the National Institute for R&D in Informatics, ICI Bucharest. Abstracts, full text and graphics of all articles in the online version of SIC are identical to the print version of the Journal.