Leveraging Meta-Learning To Improve Unsupervised Domain Adaptation

IF 1.5 4区 计算机科学 Q4 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE Computer Journal Pub Date : 2023-11-01 DOI:10.1093/comjnl/bxad104
Amirfarhad Farhadi, Arash Sharifi
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Abstract

Abstract Unsupervised Domain Adaptation (UDA) techniques in real-world scenarios often encounter limitations due to their reliance on reducing distribution dissimilarity between source and target domains, assuming it leads to effective adaptation. However, they overlook the intricate factors causing domain shifts, including data distribution variations, domain-specific features and nonlinear relationships, thereby hindering robust performance in challenging UDA tasks. The Neuro-Fuzzy Meta-Learning (NF-ML) approach overcomes traditional UDA limitations with its flexible framework that adapts to intricate, nonlinear domain gaps without rigid assumptions. NF-ML enhances domain adaptation by selecting a UDA subset and optimizing their weights via a neuro-fuzzy system, utilizing meta-learning to efficiently adapt models to new domains using previously acquired knowledge. This approach mitigates domain adaptation challenges and bolsters traditional UDA methods’ performance by harnessing the strengths of multiple UDA methods to enhance overall model generalization. The proposed approach shows potential in advancing domain adaptation research by providing a robust and efficient solution for real-world domain shifts. Experiments on three standard image datasets confirm the proposed approach’s superiority over state-of-the-art UDA methods, validating the effectiveness of meta-learning. Remarkably, the Office+Caltech 10, ImageCLEF-DA and combined digit datasets exhibit substantial accuracy gains of 30.9%, 6.8% and 10.9%, respectively, compared with the best-second baseline UDA approach.
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利用元学习改进无监督领域适应
摘要无监督域自适应(UDA)技术在现实场景中往往会遇到局限性,因为它依赖于减少源域和目标域之间的分布不相似性,假设它可以导致有效的自适应。然而,他们忽略了导致领域转移的复杂因素,包括数据分布变化、领域特定特征和非线性关系,从而阻碍了具有挑战性的UDA任务的稳健性能。神经模糊元学习(NF-ML)方法以其灵活的框架克服了传统的UDA限制,该框架可以适应复杂的非线性域间隙,而不需要严格的假设。NF-ML通过选择UDA子集并通过神经模糊系统优化其权重,利用元学习利用先前获得的知识有效地使模型适应新领域,从而增强了领域适应性。该方法通过利用多种UDA方法的优势来增强整体模型泛化,从而减轻了领域自适应的挑战,并增强了传统UDA方法的性能。该方法为现实世界的领域转移提供了一种鲁棒和高效的解决方案,在推进领域适应研究方面具有潜力。在三个标准图像数据集上的实验证实了所提出的方法优于最先进的UDA方法,验证了元学习的有效性。值得注意的是,与最佳第二基线UDA方法相比,Office+Caltech 10、ImageCLEF-DA和组合数字数据集的准确率分别提高了30.9%、6.8%和10.9%。
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来源期刊
Computer Journal
Computer Journal 工程技术-计算机:软件工程
CiteScore
3.60
自引率
7.10%
发文量
164
审稿时长
4.8 months
期刊介绍: The Computer Journal is one of the longest-established journals serving all branches of the academic computer science community. It is currently published in four sections.
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