Introduction to the Third Generation Simulation Dataset: Data Collection and Trajectory Extraction

Rami Ammourah; Pedram Beigi; Bingyi Fan; Samer H. Hamdar; John Hourdos; Chun Chien Hsiao; Rachel James; Mohammdreza Khajeh-Hosseini; Hani S. Mahmassani; Dana Monzer; Tina Radvand; Alireza Talebpour; Mahdi Yousefi; Yanlin Zhang

doi:10.1177/03611981241257257

Introduction to the Third Generation Simulation Dataset: Data Collection and Trajectory Extraction

Rami Ammourah, Pedram Beigi, Bingyi Fan, Samer H. Hamdar, John Hourdos, Chun Chien Hsiao, Rachel James, Mohammdreza Khajeh-Hosseini, Hani S. Mahmassani, Dana Monzer, Tina Radvand, Alireza Talebpour, Mahdi Yousefi, Yanlin Zhang

Research output: Contribution to journal › Article › peer-review

Abstract

This study aims to provide accurate trajectory datasets capable of characterizing human–automated vehicle interactions under a diverse set of scenarios in diverse highway environments. Distinct methods were utilized to collect data from Level 1, Level 2, and Level 3 automated vehicles: (1) fixed location aerial videography (a helicopter hovers over a segment of interest); (2) moving aerial videography (a helicopter follows the automated vehicles as they move in a much longer segment than in the first method); and (3) infrastructure-based videography (multiple overlapping cameras located on overpasses creating a comprehensive image of the study area). Utilizing the fixed location aerial videography approach, trajectories were extracted on I-90/I-94 in Chicago, IL. The moving aerial videography approach was adopted to extract four datasets on I-90/I-94 and I-294 in Chicago, IL. Finally, two datasets were collected on I-395 and George Washington University Campus in Washington, D.C., using the infrastructure-based videography approach. Extracting multiple complete and accurate vehicle trajectories raises a set of methodological and practical challenges that vary across the three data measurement approaches. The methodological details to extract these trajectories are presented in this paper along with the lessons learned with respect to data collection setup, instrumentation, and experimental design efforts.

Original language	English (US)
Pages (from-to)	1768-1784
Number of pages	17
Journal	Transportation Research Record
Volume	2679
Issue number	1
Early online date	Jul 24 2024
DOIs	https://doi.org/10.1177/03611981241257257
State	Published - Jan 2025

Keywords

automated/autonomous vehicles
data analysis
data and data science
general
operations
probe vehicle data

ASJC Scopus subject areas

Civil and Structural Engineering
Mechanical Engineering

Online availability

10.1177/03611981241257257

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Ammourah, R., Beigi, P., Fan, B., Hamdar, S. H., Hourdos, J., Hsiao, C. C., James, R., Khajeh-Hosseini, M., Mahmassani, H. S., Monzer, D., Radvand, T., Talebpour, A., Yousefi, M., & Zhang, Y. (2025). Introduction to the Third Generation Simulation Dataset: Data Collection and Trajectory Extraction. Transportation Research Record, 2679(1), 1768-1784. https://doi.org/10.1177/03611981241257257

Ammourah, R, Beigi, P, Fan, B, Hamdar, SH, Hourdos, J, Hsiao, CC, James, R, Khajeh-Hosseini, M, Mahmassani, HS, Monzer, D, Radvand, T, Talebpour, A, Yousefi, M & Zhang, Y 2025, 'Introduction to the Third Generation Simulation Dataset: Data Collection and Trajectory Extraction', Transportation Research Record, vol. 2679, no. 1, pp. 1768-1784. https://doi.org/10.1177/03611981241257257

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title = "Introduction to the Third Generation Simulation Dataset: Data Collection and Trajectory Extraction",

abstract = "This study aims to provide accurate trajectory datasets capable of characterizing human–automated vehicle interactions under a diverse set of scenarios in diverse highway environments. Distinct methods were utilized to collect data from Level 1, Level 2, and Level 3 automated vehicles: (1) fixed location aerial videography (a helicopter hovers over a segment of interest); (2) moving aerial videography (a helicopter follows the automated vehicles as they move in a much longer segment than in the first method); and (3) infrastructure-based videography (multiple overlapping cameras located on overpasses creating a comprehensive image of the study area). Utilizing the fixed location aerial videography approach, trajectories were extracted on I-90/I-94 in Chicago, IL. The moving aerial videography approach was adopted to extract four datasets on I-90/I-94 and I-294 in Chicago, IL. Finally, two datasets were collected on I-395 and George Washington University Campus in Washington, D.C., using the infrastructure-based videography approach. Extracting multiple complete and accurate vehicle trajectories raises a set of methodological and practical challenges that vary across the three data measurement approaches. The methodological details to extract these trajectories are presented in this paper along with the lessons learned with respect to data collection setup, instrumentation, and experimental design efforts.",

keywords = "automated/autonomous vehicles, data analysis, data and data science, general, operations, probe vehicle data",

author = "Rami Ammourah and Pedram Beigi and Bingyi Fan and Hamdar, {Samer H.} and John Hourdos and Hsiao, {Chun Chien} and Rachel James and Mohammdreza Khajeh-Hosseini and Mahmassani, {Hani S.} and Dana Monzer and Tina Radvand and Alireza Talebpour and Mahdi Yousefi and Yanlin Zhang",

note = "The author(s) disclosed receipt of the following financial support for the research, authorship, and/or publication of this article: This study was supported by the U.S. Department of Transportation (U.S. DOT) Federal Highway Administration (FHWA): Third Generation Simulation (TGSIM) Data: A Closer Look at The Impacts of Automated Driving Systems on Human Behavior.",

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doi = "10.1177/03611981241257257",

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AU - Ammourah, Rami

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AU - Fan, Bingyi

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AU - Hourdos, John

AU - Hsiao, Chun Chien

AU - James, Rachel

AU - Khajeh-Hosseini, Mohammdreza

AU - Mahmassani, Hani S.

AU - Monzer, Dana

AU - Radvand, Tina

AU - Talebpour, Alireza

AU - Yousefi, Mahdi

AU - Zhang, Yanlin

N1 - The author(s) disclosed receipt of the following financial support for the research, authorship, and/or publication of this article: This study was supported by the U.S. Department of Transportation (U.S. DOT) Federal Highway Administration (FHWA): Third Generation Simulation (TGSIM) Data: A Closer Look at The Impacts of Automated Driving Systems on Human Behavior.

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Introduction to the Third Generation Simulation Dataset: Data Collection and Trajectory Extraction

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