Please use this identifier to cite or link to this item: http://hdl.handle.net/10397/119513
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Title: Effective and efficient route planning using historical trajectories on road networks
Authors: Tian, W 
Shi, J 
Luo, S
Li, H
Xie, X
Zou, Y
Issue Date: Jun-2023
Source: Proceedings of the VLDB Endowment, June 2023, v. 16, no. 10, p. 2512-2524
Abstract: We study route planning that utilizes historical trajectories to predict a realistic route from a source to a destination on a road network at given departure time. Route planning is a fundamental task in many location-based services. It is challenging to capture latent patterns implied by complex trajectory data for accurate route planning. Recent studies mainly resort to deep learning techniques that incur immense computational costs, especially on massive data, while their effectiveness are complicated to interpret.
This paper proposes DRPK, an effective and efficient route planning method that achieves state-of-the-art performance via a series of novel algorithmic designs. In brief, observing that a route planning query (RPQ) with closer source and destination is easier to be accurately predicted, we fulfill a promising idea in DRPK to first detect the key segment of an RPQ by a classification model KSD, in order to split the RPQ into shorter RPQs, and then handle the shorter RPQs by a destination-driven route planning procedure DRP. Both KSD and DRP modules rely on a directed association (DA) indicator, which captures the dependencies between road segments from historical trajectories in a surprisingly intuitive but effective way. Leveraging the DA indicator, we develop a set of well-thought-out key segment concepts that holistically consider historical trajectories and RPQs. KSD is powered by effective encoders to detect high-quality key segments, without inspecting all segments in a road network for efficiency. We conduct extensive experiments on 5 large-scale datasets. DRPK consistently achieves the highest effectiveness, often with a significant margin over existing methods, while being much faster to train. Moreover, DRPK is efficient to handle thousands of online RPQs in a second, e.g., 2768 RPQs per second on a PT dataset, i.e., 0.36 milliseconds per RPQ.
Publisher: Association for Computing Machinery
Journal: Proceedings of the VLDB Endowment 
ISSN: 2150-8097
DOI: 10.14778/3603581.3603591
Description: The 49th International Conference on Very Large Data Bases, Vancouver, Canada, August 28 to September 1, 2023
Rights: This work is licensed under the Creative Commons BY-NC-ND 4.0 International License. Visit https://creativecommons.org/licenses/by-nc-nd/4.0/ to view a copy of this license. For any use beyond those covered by this license, obtain permission by emailing info@vldb.org. Copyright is held by the owner/author(s). Publication rights licensed to the VLDB Endowment.
The following publication Tian, W., Shi, J., Luo, S., Li, H., Xie, X., & Zou, Y. (2023). Effective and efficient route planning using historical trajectories on road networks. Proceedings of the VLDB Endowment, 16(10), 2512-2524 is available at https://doi.org/10.14778/3603581.3603591.
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