学习位置引导的时间序列Shapelets

IF 8.9 2区计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

IEEE Transactions on Knowledge and Data Engineering Pub Date : 2025-02-13 DOI:10.1109/TKDE.2025.3536462

Akihiro Yamaguchi;Ken Ueno;Hisashi Kashima

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引用次数: 0

摘要

Shapelets是类间判别子序列，可用于描述目标类的特征。为了提高分类精度，近年来研究了基于连续优化的小波学习方法。然而，在以往的研究中存在两个问题。首先，由于shapelets在时间序列中出现的位置仅由其形状决定，因此shapelets可能出现在时间序列中不正确和非判别性的位置，从而降低了准确性和可解释性。其次，对习得小块的理论解释一直局限于二元分类。为了解决第一个问题，我们提出了一种连续优化方法，不仅可以学习shapelets，还可以学习它们在时间序列中的可能位置，并且我们从理论上证明了这增强了特征的可判别性。为了解决第二个问题，我们在使用softmax loss学习时，为目标/非目标类提供了shapelet与时间序列的接近度的理论解释，这允许多类分类。我们在UCR存档的准确性、运行时间和可解释性方面证明了所提出方法的有效性。

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Learning Location-Guided Time-Series Shapelets

Shapelets are interclass discriminative subsequences that can be used to characterize target classes. Learning shapelets by continuous optimization has recently been studied to improve classification accuracy. However, there are two issues in previous studies. First, since the locations where shapelets appear in the time series are determined by only their shapes, shapelets may appear at incorrect and non-discriminative locations in the time series, degrading the accuracy and interpretability. Second, the theoretical interpretation of learned shapelets has been limited to binary classification. To tackle the first issue, we propose a continuous optimization that learns not only shapelets but also their probable locations in a time series, and we show theoretically that this enhances feature discriminability. To tackle the second issue, we provide a theoretical interpretation of shapelet closeness to the time series for target / off-target classes when learning with softmax loss, which allows for multi-class classification. We demonstrate the effectiveness of the proposed method in terms of accuracy, runtime, and interpretability on the UCR archive.

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来源期刊

IEEE Transactions on Knowledge and Data Engineering 工程技术-工程：电子与电气

CiteScore

11.70

自引率

3.40%

发文量

515

审稿时长

6 months

期刊介绍： The IEEE Transactions on Knowledge and Data Engineering encompasses knowledge and data engineering aspects within computer science, artificial intelligence, electrical engineering, computer engineering, and related fields. It provides an interdisciplinary platform for disseminating new developments in knowledge and data engineering and explores the practicality of these concepts in both hardware and software. Specific areas covered include knowledge-based and expert systems, AI techniques for knowledge and data management, tools, and methodologies, distributed processing, real-time systems, architectures, data management practices, database design, query languages, security, fault tolerance, statistical databases, algorithms, performance evaluation, and applications.