基于图的互激点过程,用于模拟有桩共享单车系统中的事件时间

IF 0.7 4区 数学 Q3 STATISTICS & PROBABILITY
Stat Pub Date : 2024-03-07 DOI:10.1002/sta4.660
Francesco Sanna Passino, Yining Che, Carlos Cardoso Correia Perello
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引用次数: 0

摘要

本文介绍了基于图的互激过程(GB-MEP),以模拟网络点过程中的事件时间,重点关注有桩共享单车系统的应用。GB-MEP 将图中节点之间的已知关系纳入基于节点的多变量霍克斯过程的强度函数中。这种方法将参数数量减少到与网络中节点数量成正比,与传统方法相比,在计算可扩展性方面具有显著优势。该模型应用于在伦敦市中心桑坦德自行车网络上观察到的事件数据,证明利用与站点地理位置相关的全网信息有利于提高基于节点的模型在共享单车系统中的应用性能。所提出的 GB-MEP 框架更普遍地适用于节点间存在距离函数的任何网络点过程,从而证明了其更广泛的适用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Graph-based mutually exciting point processes for modelling event times in docked bike-sharing systems
This paper introduces graph-based mutually exciting processes (GB-MEP) to model event times in network point processes, focusing on an application to docked bike-sharing systems. GB-MEP incorporates known relationships between nodes in a graph within the intensity function of a node-based multivariate Hawkes process. This approach reduces the number of parameters to a quantity proportional to the number of nodes in the network, resulting in significant advantages for computational scalability when compared with traditional methods. The model is applied on event data observed on the Santander Cycles network in central London, demonstrating that exploiting network-wide information related to geographical location of the stations is beneficial to improve the performance of node-based models for applications in bike-sharing systems. The proposed GB-MEP framework is more generally applicable to any network point process where a distance function between nodes is available, demonstrating wider applicability.
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来源期刊
Stat
Stat Decision Sciences-Statistics, Probability and Uncertainty
CiteScore
1.10
自引率
0.00%
发文量
85
期刊介绍: Stat is an innovative electronic journal for the rapid publication of novel and topical research results, publishing compact articles of the highest quality in all areas of statistical endeavour. Its purpose is to provide a means of rapid sharing of important new theoretical, methodological and applied research. Stat is a joint venture between the International Statistical Institute and Wiley-Blackwell. Stat is characterised by: • Speed - a high-quality review process that aims to reach a decision within 20 days of submission. • Concision - a maximum article length of 10 pages of text, not including references. • Supporting materials - inclusion of electronic supporting materials including graphs, video, software, data and images. • Scope - addresses all areas of statistics and interdisciplinary areas. Stat is a scientific journal for the international community of statisticians and researchers and practitioners in allied quantitative disciplines.
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