Transfer-learning-based representation learning for trajectory similarity search

IF 2.2 4区计算机科学 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS

Geoinformatica Pub Date : 2024-04-13 DOI:10.1007/s10707-024-00515-x

Danling Lai, Jianfeng Qu, Yu Sang, Xi Chen

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Abstract

Trajectory similarity search is one of the most fundamental tasks in spatial-temporal data analysis. Classical methods are based on predefined trajectory similarity measures, consuming high time and space costs. To accelerate similarity computation, some deep metric learning methods have recently been proposed to approximate predefined measures based on the learned representation of trajectories. However, instead of predefined measures, real applications may require personalized measures, which cannot be effectively learned by existing models due to insufficient labels. Thus, this paper proposes a transfer-learning-based model FTL-Traj, which addresses this problem by effectively transferring knowledge from several existing measures as source measures. Particularly, a ProbSparse self-attention-based GRU unit is designed to extract the spatial and structural information of each trajectory. Confronted with diverse source measures, the priority modeling assists the model for the rational ensemble. Then, sparse labels are enriched with rank knowledge and collaboration knowledge via transfer learning. Extensive experiments on two real-world datasets demonstrate the superiority of our model.

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基于迁移学习的轨迹相似性搜索表征学习

轨迹相似性搜索是时空数据分析中最基本的任务之一。传统方法基于预定义的轨迹相似性度量，耗费大量时间和空间。为了加速相似性计算，最近有人提出了一些深度度量学习方法，根据学习到的轨迹表示来近似预定义度量。然而，实际应用中可能需要个性化的度量，而不是预定义的度量，由于标签不足，现有模型无法有效地学习这些度量。因此，本文提出了一种基于迁移学习的模型 FTL-Traj，该模型通过有效迁移多个现有测量指标的知识作为源测量指标来解决这一问题。特别是设计了一个基于 ProbSparse 自注意的 GRU 单元，以提取每个轨迹的空间和结构信息。面对多样化的源测量，优先建模有助于建立合理的集合模型。然后，通过迁移学习用等级知识和协作知识丰富稀疏标签。在两个真实世界数据集上的广泛实验证明了我们模型的优越性。

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来源期刊

Geoinformatica 地学-计算机：信息系统

CiteScore

5.60

自引率

10.00%

发文量

审稿时长

6 months

期刊介绍： GeoInformatica is located at the confluence of two rapidly advancing domains: Computer Science and Geographic Information Science; nowadays, Earth studies use more and more sophisticated computing theory and tools, and computer processing of Earth observations through Geographic Information Systems (GIS) attracts a great deal of attention from governmental, industrial and research worlds. This journal aims to promote the most innovative results coming from the research in the field of computer science applied to geographic information systems. Thus, GeoInformatica provides an effective forum for disseminating original and fundamental research and experience in the rapidly advancing area of the use of computer science for spatial studies.