A spatiotemporal graph generative adversarial networks for short-term passenger flow prediction in urban rail transit systems

IF 2.4 4区计算机科学 Q2 COMPUTER SCIENCE, THEORY & METHODS

International Journal of General Systems Pub Date : 2023-05-09 DOI:10.1080/03081079.2023.2203922

Jinlei Zhang, Hua Li, Shuxin Zhang, Lixing Yang, G. Jin, J. Qi

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引用次数: 2

Abstract

ABSTRACT Most short-term passenger flow prediction methods only consider absolute errors as the optimization objective, which fails to account for spatial and temporal constraints on the predictions. To overcome these limitations, we propose a deep learning-based spatiotemporal graph generative adversarial network (STG-GAN) to accurately predict network-wide short-term passenger flows of the urban rail transit with higher efficiency and lower memory occupancy. Our model is optimized in an adversarial learning manner and includes (1) a generator network including gated temporal conventional networks (TCN) and weight sharing graph convolution networks (GCN) to capture structural spatiotemporal dependencies and generate predictions with a small computational burden; (2) a discriminator network including a spatial discriminator and a temporal discriminator to enhance spatial and temporal constraints of the predictions. The STG-GAN is evaluated on two datasets from Beijing Subway. Results illustrate its superiority and robustness.

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用于城市轨道交通系统短期客流预测的时空图生成对抗性网络

摘要大多数短期客流预测方法只考虑绝对误差作为优化目标，没有考虑预测的空间和时间约束。为了克服这些局限性，我们提出了一种基于深度学习的时空图生成对抗性网络（STG-GAN），以更高的效率和更低的内存占用率准确预测城市轨道交通的全网短期客流。我们的模型以对抗性学习方式进行了优化，包括（1）生成器网络，该生成器网络包括门控时间常规网络（TCN）和权重共享图卷积网络（GCN），以捕获结构时空依赖性并生成具有较小计算负担的预测；（2）鉴别器网络，包括空间鉴别器和时间鉴别器以增强预测的空间和时间约束。STG-GAN在北京地铁的两个数据集上进行了评估。结果表明了它的优越性和鲁棒性。

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来源期刊

International Journal of General Systems 工程技术-计算机：理论方法

CiteScore

4.10

自引率

20.00%

发文量

审稿时长

6 months

期刊介绍： International Journal of General Systems is a periodical devoted primarily to the publication of original research contributions to system science, basic as well as applied. However, relevant survey articles, invited book reviews, bibliographies, and letters to the editor are also published. The principal aim of the journal is to promote original systems ideas (concepts, principles, methods, theoretical or experimental results, etc.) that are broadly applicable to various kinds of systems. The term “general system” in the name of the journal is intended to indicate this aim–the orientation to systems ideas that have a general applicability. Typical subject areas covered by the journal include: uncertainty and randomness; fuzziness and imprecision; information; complexity; inductive and deductive reasoning about systems; learning; systems analysis and design; and theoretical as well as experimental knowledge regarding various categories of systems. Submitted research must be well presented and must clearly state the contribution and novelty. Manuscripts dealing with particular kinds of systems which lack general applicability across a broad range of systems should be sent to journals specializing in the respective topics.