DocumentCode
54226
Title
Visual Traffic Jam Analysis Based on Trajectory Data
Author
Zuchao Wang ; Min Lu ; Xiaoru Yuan ; Junping Zhang ; van de Wetering, Huub
Author_Institution
Key Lab. of Machine Perception, Peking Univ., Beijing, China
Volume
19
Issue
12
fYear
2013
fDate
Dec. 2013
Firstpage
2159
Lastpage
2168
Abstract
In this work, we present an interactive system for visual analysis of urban traffic congestion based on GPS trajectories. For these trajectories we develop strategies to extract and derive traffic jam information. After cleaning the trajectories, they are matched to a road network. Subsequently, traffic speed on each road segment is computed and traffic jam events are automatically detected. Spatially and temporally related events are concatenated in, so-called, traffic jam propagation graphs. These graphs form a high-level description of a traffic jam and its propagation in time and space. Our system provides multiple views for visually exploring and analyzing the traffic condition of a large city as a whole, on the level of propagation graphs, and on road segment level. Case studies with 24 days of taxi GPS trajectories collected in Beijing demonstrate the effectiveness of our system.
Keywords
Global Positioning System; data analysis; data visualisation; interactive systems; pattern matching; traffic information systems; Beijing; GPS trajectories; automatic traffic jam event detection; high-level traffic jam description; interactive system; road network; road segment; spatially related events; taxi GPS trajectories; temporally related events; traffic jam information extraction; traffic jam propagation graphs; traffic speed; trajectory data; trajectory matching; visual exploration; visual traffic jam analysis; visual urban traffic congestion analysis; Cities and towns; Data mining; Data visualization; Global Positioning System; Road traffic; Traffic control; Trajectory; Urban areas; Cities and towns; Data mining; Data visualization; Global Positioning System; Road traffic; Traffic control; Traffic visualization; Trajectory; Urban areas; traffic jam propagation; Computer Graphics; Computer Simulation; Geographic Information Systems; Models, Statistical; Motor Vehicles; Pattern Recognition, Automated; User-Computer Interface;
fLanguage
English
Journal_Title
Visualization and Computer Graphics, IEEE Transactions on
Publisher
ieee
ISSN
1077-2626
Type
jour
DOI
10.1109/TVCG.2013.228
Filename
6634174
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