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Dual attentive graph neural network for metro passenger flow prediction
Metro system has been increasingly recognized as a backbone of urban transportation system in many cities around the world. To improve the demand management and operation efficiency, it is crucial to have accurate prediction of real-time metro passenger flow. However, the forecast performance is oft...
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| Published in: | Neural computing & applications 2021-10, Vol.33 (20), p.13417-13431 |
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| Main Authors: | , , , , |
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| cites | cdi_FETCH-LOGICAL-c319t-efb67c7500a542ca725b795e84d770b73cce5e89282a312b602a0889118baaed3 |
| container_end_page | 13431 |
| container_issue | 20 |
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| container_title | Neural computing & applications |
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| creator | Lu, Yuhuan Ding, Hongliang Ji, Shiqian Sze, N. N. He, Zhaocheng |
| description | Metro system has been increasingly recognized as a backbone of urban transportation system in many cities around the world. To improve the demand management and operation efficiency, it is crucial to have accurate prediction of real-time metro passenger flow. However, the forecast performance is often subject to the complex spatial and temporal distributions of the metro passenger flow data. To this end, we developed a novel dual attentive graph neural network that can effectively predict the distribution of metro traffic flow considering the spatial and temporal influences. Specifically, two directed complete metro graphs (i.e., inbound and outbound graphs) and the weighted matrix of them are proposed to characterize the inbound (entering the system) and outbound (leaving the system) passenger flow, respectively. The weighted matrix of inbound graph is estimated based on the historical origin-destination demand and that of the outbound graph is estimated based on the similarity metrics between every two stations. Moreover, to capture the dependencies between inbound and outbound flows, multi-layer graph spatial attention networks that incorporate the spatial context are applied to exploit the dynamic inter-station correlations. Then, the acquired dependency features integrated with external factors, such as weather conditions, are filtered by temporal attention and fed into a sequence decoder to produce short-term and long-term passenger flow predictions. Finally, a series experiments are conducted based on a comprehensive empirical dataset. Findings indicated that the proposed model does not only well predict the metro passenger flow, but also effectively detect the emergencies and incidents of metro system. |
| doi_str_mv | 10.1007/s00521-021-05966-z |
| format | article |
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N. ; He, Zhaocheng</creator><creatorcontrib>Lu, Yuhuan ; Ding, Hongliang ; Ji, Shiqian ; Sze, N. N. ; He, Zhaocheng</creatorcontrib><description>Metro system has been increasingly recognized as a backbone of urban transportation system in many cities around the world. To improve the demand management and operation efficiency, it is crucial to have accurate prediction of real-time metro passenger flow. However, the forecast performance is often subject to the complex spatial and temporal distributions of the metro passenger flow data. To this end, we developed a novel dual attentive graph neural network that can effectively predict the distribution of metro traffic flow considering the spatial and temporal influences. Specifically, two directed complete metro graphs (i.e., inbound and outbound graphs) and the weighted matrix of them are proposed to characterize the inbound (entering the system) and outbound (leaving the system) passenger flow, respectively. The weighted matrix of inbound graph is estimated based on the historical origin-destination demand and that of the outbound graph is estimated based on the similarity metrics between every two stations. Moreover, to capture the dependencies between inbound and outbound flows, multi-layer graph spatial attention networks that incorporate the spatial context are applied to exploit the dynamic inter-station correlations. Then, the acquired dependency features integrated with external factors, such as weather conditions, are filtered by temporal attention and fed into a sequence decoder to produce short-term and long-term passenger flow predictions. Finally, a series experiments are conducted based on a comprehensive empirical dataset. 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Specifically, two directed complete metro graphs (i.e., inbound and outbound graphs) and the weighted matrix of them are proposed to characterize the inbound (entering the system) and outbound (leaving the system) passenger flow, respectively. The weighted matrix of inbound graph is estimated based on the historical origin-destination demand and that of the outbound graph is estimated based on the similarity metrics between every two stations. Moreover, to capture the dependencies between inbound and outbound flows, multi-layer graph spatial attention networks that incorporate the spatial context are applied to exploit the dynamic inter-station correlations. Then, the acquired dependency features integrated with external factors, such as weather conditions, are filtered by temporal attention and fed into a sequence decoder to produce short-term and long-term passenger flow predictions. Finally, a series experiments are conducted based on a comprehensive empirical dataset. Findings indicated that the proposed model does not only well predict the metro passenger flow, but also effectively detect the emergencies and incidents of metro system.</description><subject>Airports</subject><subject>Artificial Intelligence</subject><subject>Computational Biology/Bioinformatics</subject><subject>Computational Science and Engineering</subject><subject>Computer Science</subject><subject>Data Mining and Knowledge Discovery</subject><subject>Graph neural networks</subject><subject>Graphs</subject><subject>Image Processing and Computer Vision</subject><subject>Multilayers</subject><subject>Neural networks</subject><subject>Original Article</subject><subject>Passengers</subject><subject>Probability and Statistics in Computer Science</subject><subject>Traffic flow</subject><subject>Transportation networks</subject><subject>Transportation systems</subject><subject>Urban transportation</subject><subject>Weather</subject><issn>0941-0643</issn><issn>1433-3058</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2021</creationdate><recordtype>article</recordtype><recordid>eNp9UMtOwzAQtBBIlMIPcLLEObB-xc4RFShISFzgbDnppqS0cbAdKvr1JAoSNw6j1e7OzGqHkEsG1wxA30QAxVkGI1SR59nhiMyYFCIToMwxmUEhh1UuxSk5i3EDADI3akaWd73bUpcStqn5QroOrnunLfZhGLeY9j580NoHusMUPO1cjNiuMdB66_e0C7hqqtT49pyc1G4b8eK3zsnbw_3r4jF7flk-LW6fs0qwImVYl7mutAJwSvLKaa5KXSg0cqU1lFpUFQ5dwQ13gvEyB-7AmIIxUzqHKzEnV5NvF_xnjzHZje9DO5y0XBnFuZFGDSw-sargYwxY2y40Oxe-LQM7BmanwCyMGAOzh0EkJlEcyOOPf9b_qH4AOOZutg</recordid><startdate>20211001</startdate><enddate>20211001</enddate><creator>Lu, Yuhuan</creator><creator>Ding, Hongliang</creator><creator>Ji, Shiqian</creator><creator>Sze, N. 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N.</creatorcontrib><creatorcontrib>He, Zhaocheng</creatorcontrib><collection>CrossRef</collection><collection>ProQuest SciTech Collection</collection><collection>ProQuest Technology Collection</collection><collection>ProQuest Central</collection><collection>Advanced Technologies & Aerospace Collection</collection><collection>ProQuest Central</collection><collection>Technology Collection</collection><collection>ProQuest One Community College</collection><collection>ProQuest Central Korea</collection><collection>SciTech Premium Collection</collection><collection>Advanced Technologies & Aerospace Database</collection><collection>ProQuest Advanced Technologies & Aerospace Collection</collection><collection>ProQuest One Academic Eastern Edition (DO NOT USE)</collection><collection>ProQuest One Academic</collection><collection>ProQuest One Academic UKI Edition</collection><collection>ProQuest Central China</collection><jtitle>Neural computing & applications</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Lu, Yuhuan</au><au>Ding, Hongliang</au><au>Ji, Shiqian</au><au>Sze, N. N.</au><au>He, Zhaocheng</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Dual attentive graph neural network for metro passenger flow prediction</atitle><jtitle>Neural computing & applications</jtitle><stitle>Neural Comput & Applic</stitle><date>2021-10-01</date><risdate>2021</risdate><volume>33</volume><issue>20</issue><spage>13417</spage><epage>13431</epage><pages>13417-13431</pages><issn>0941-0643</issn><eissn>1433-3058</eissn><abstract>Metro system has been increasingly recognized as a backbone of urban transportation system in many cities around the world. To improve the demand management and operation efficiency, it is crucial to have accurate prediction of real-time metro passenger flow. However, the forecast performance is often subject to the complex spatial and temporal distributions of the metro passenger flow data. To this end, we developed a novel dual attentive graph neural network that can effectively predict the distribution of metro traffic flow considering the spatial and temporal influences. Specifically, two directed complete metro graphs (i.e., inbound and outbound graphs) and the weighted matrix of them are proposed to characterize the inbound (entering the system) and outbound (leaving the system) passenger flow, respectively. The weighted matrix of inbound graph is estimated based on the historical origin-destination demand and that of the outbound graph is estimated based on the similarity metrics between every two stations. Moreover, to capture the dependencies between inbound and outbound flows, multi-layer graph spatial attention networks that incorporate the spatial context are applied to exploit the dynamic inter-station correlations. 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| subjects | Airports Artificial Intelligence Computational Biology/Bioinformatics Computational Science and Engineering Computer Science Data Mining and Knowledge Discovery Graph neural networks Graphs Image Processing and Computer Vision Multilayers Neural networks Original Article Passengers Probability and Statistics in Computer Science Traffic flow Transportation networks Transportation systems Urban transportation Weather |
| title | Dual attentive graph neural network for metro passenger flow prediction |
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