Local structure alignment guided domain adaptation with few source samples

Yuying Cai, Jinfeng Li, Baodi Liu, Weifeng Liu, Kai Zhang, Changsheng Xu
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Abstract

Domain adaptation has received lots of attention for its high efficiency in dealing with cross-domain learning tasks. Most existing domain adaptation methods adopt the strategies relying on large amounts of source label information, which limits their applications in the real world where only a few label samples are available. We exploit the local geometric connections to tackle this problem and propose a Local Structure Alignment (LSA) guided domain adaptation method in this paper. LSA leverages the Nyström method to describe the distribution difference from the geometric perspective and then perform the distribution alignment between domains. Specifically, LSA constructs a domain-invariant Hessian matrix to locally connect the data of the two domains through minimizing the Nyström approximation error. And then it integrates the domain-invariant Hessian matrix with the semi-supervised learning and finally builds an adaptive semi-supervised model. Extensive experimental results validate that the proposed LSA outperforms the traditional domain adaptation methods especially when only sparse source label information is available.
局部结构对齐引导域自适应少源样本
领域自适应以其处理跨领域学习任务的高效率而受到广泛关注。现有的领域自适应方法大多采用依赖于大量源标签信息的策略,这限制了它们在标签样本较少的现实世界中的应用。本文利用局部几何连接来解决这一问题,提出了一种局部结构对齐(LSA)引导的域自适应方法。LSA利用Nyström方法从几何角度描述分布差异,然后执行域之间的分布对齐。具体来说,LSA构建一个域不变的Hessian矩阵,通过最小化Nyström近似误差来局部连接两个域的数据。然后将域不变Hessian矩阵与半监督学习相结合,建立自适应半监督学习模型。大量的实验结果验证了该方法优于传统的域自适应方法,特别是在只有稀疏源标签信息的情况下。
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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