TRANSIT-GYM: A Simulation and Evaluation Engine for Analysis of Bus Transit Systems

Ruixiao Sun; Rongze Gui; Himanshu Neema; Yuche Chen; Juliette Ugirumurera; Joseph Severino; Philip Pugliese; Aron Laszka; Abhishek Dubey

doi:10.1109/SMARTCOMP52413.2021.00030

TRANSIT-GYM: A Simulation and Evaluation Engine for Analysis of Bus Transit Systems

Ruixiao Sun
, Rongze Gui
, Himanshu Neema
, Yuche Chen
, Juliette Ugirumurera
, Joseph Severino
, Philip Pugliese
, Aron Laszka
, Abhishek Dubey

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

8 Scopus citations

Abstract

Public-transit systems face a number of operational challenges: (a) changing ridership patterns requiring optimization of fixed line services, (b) optimizing vehicle-to-trip assignments to reduce maintenance and operation codes, and (c) ensuring equitable and fair coverage to areas with low ridership. Optimizing these objectives presents a hard computational problem due to the size and complexity of the decision space. State-of-the-art methods formulate these problems as variants of the vehicle routing problem and use data-driven heuristics for optimizing the procedures. However, the evaluation and training of these algorithms require large datasets that provide realistic coverage of various operational uncertainties. This paper presents a dynamic simulation platform, called TRANSIT-GYM, that can bridge this gap by providing the ability to simulate scenarios, focusing on variation of demand models, variations of route networks, and variations of vehicle-to-trip assignments. The central contribution of this work is a domain-specific language and associated experimentation tool-chain and infrastructure to enable subject-matter experts to intuitively specify, simulate, and analyze large-scale transit scenarios and their parametric variations. Of particular significance is an integrated microscopic energy consumption model that also helps to analyze the energy cost of various transit decisions made by the transportation agency of a city.

Original language	English
Title of host publication	Proceedings - 2021 IEEE International Conference on Smart Computing, SMARTCOMP 2021
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	69-76
Number of pages	8
ISBN (Electronic)	9781665412520
DOIs	https://doi.org/10.1109/SMARTCOMP52413.2021.00030
State	Published - Aug 2021
Externally published	Yes
Event	7th IEEE International Conference on Smart Computing, SMARTCOMP 2021 - Virtual, Irvine, United States Duration: Aug 23 2021 → Aug 27 2021

Publication series

Name	Proceedings - 2021 IEEE International Conference on Smart Computing, SMARTCOMP 2021

Conference

Conference	7th IEEE International Conference on Smart Computing, SMARTCOMP 2021
Country/Territory	United States
City	Virtual, Irvine
Period	08/23/21 → 08/27/21

Funding

This material is based upon work supported by National Science Foundation under grants CNS-1952011, CNS-2029950 and Department of Energy, Office of Energy Efficiency and Renewable Energy (EERE), under Award Number DEEE0008467. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation or the Department of Energy.

Keywords

Transit simulation
data-driven optimization
domain-specific modeling language
micro-simulation
regional transportation system
traffic simulation
transportation planning

Access to Document

10.1109/SMARTCOMP52413.2021.00030

Cite this

Sun, R., Gui, R., Neema, H., Chen, Y., Ugirumurera, J., Severino, J., Pugliese, P., Laszka, A., & Dubey, A. (2021). TRANSIT-GYM: A Simulation and Evaluation Engine for Analysis of Bus Transit Systems. In Proceedings - 2021 IEEE International Conference on Smart Computing, SMARTCOMP 2021 (pp. 69-76). (Proceedings - 2021 IEEE International Conference on Smart Computing, SMARTCOMP 2021). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/SMARTCOMP52413.2021.00030

Sun, Ruixiao ; Gui, Rongze ; Neema, Himanshu et al. / TRANSIT-GYM : A Simulation and Evaluation Engine for Analysis of Bus Transit Systems. Proceedings - 2021 IEEE International Conference on Smart Computing, SMARTCOMP 2021. Institute of Electrical and Electronics Engineers Inc., 2021. pp. 69-76 (Proceedings - 2021 IEEE International Conference on Smart Computing, SMARTCOMP 2021).

@inproceedings{cb4bddafbe194686a9451c924cc60728,

title = "TRANSIT-GYM: A Simulation and Evaluation Engine for Analysis of Bus Transit Systems",

abstract = "Public-transit systems face a number of operational challenges: (a) changing ridership patterns requiring optimization of fixed line services, (b) optimizing vehicle-to-trip assignments to reduce maintenance and operation codes, and (c) ensuring equitable and fair coverage to areas with low ridership. Optimizing these objectives presents a hard computational problem due to the size and complexity of the decision space. State-of-the-art methods formulate these problems as variants of the vehicle routing problem and use data-driven heuristics for optimizing the procedures. However, the evaluation and training of these algorithms require large datasets that provide realistic coverage of various operational uncertainties. This paper presents a dynamic simulation platform, called TRANSIT-GYM, that can bridge this gap by providing the ability to simulate scenarios, focusing on variation of demand models, variations of route networks, and variations of vehicle-to-trip assignments. The central contribution of this work is a domain-specific language and associated experimentation tool-chain and infrastructure to enable subject-matter experts to intuitively specify, simulate, and analyze large-scale transit scenarios and their parametric variations. Of particular significance is an integrated microscopic energy consumption model that also helps to analyze the energy cost of various transit decisions made by the transportation agency of a city.",

keywords = "Transit simulation, data-driven optimization, domain-specific modeling language, micro-simulation, regional transportation system, traffic simulation, transportation planning",

author = "Ruixiao Sun and Rongze Gui and Himanshu Neema and Yuche Chen and Juliette Ugirumurera and Joseph Severino and Philip Pugliese and Aron Laszka and Abhishek Dubey",

note = "Publisher Copyright: {\textcopyright} 2021 IEEE.; 7th IEEE International Conference on Smart Computing, SMARTCOMP 2021 ; Conference date: 23-08-2021 Through 27-08-2021",

year = "2021",

month = aug,

doi = "10.1109/SMARTCOMP52413.2021.00030",

language = "English",

series = "Proceedings - 2021 IEEE International Conference on Smart Computing, SMARTCOMP 2021",

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Sun, R, Gui, R, Neema, H, Chen, Y, Ugirumurera, J, Severino, J, Pugliese, P, Laszka, A & Dubey, A 2021, TRANSIT-GYM: A Simulation and Evaluation Engine for Analysis of Bus Transit Systems. in Proceedings - 2021 IEEE International Conference on Smart Computing, SMARTCOMP 2021. Proceedings - 2021 IEEE International Conference on Smart Computing, SMARTCOMP 2021, Institute of Electrical and Electronics Engineers Inc., pp. 69-76, 7th IEEE International Conference on Smart Computing, SMARTCOMP 2021, Virtual, Irvine, United States, 08/23/21. https://doi.org/10.1109/SMARTCOMP52413.2021.00030

TRANSIT-GYM: A Simulation and Evaluation Engine for Analysis of Bus Transit Systems. / Sun, Ruixiao; Gui, Rongze; Neema, Himanshu et al.
Proceedings - 2021 IEEE International Conference on Smart Computing, SMARTCOMP 2021. Institute of Electrical and Electronics Engineers Inc., 2021. p. 69-76 (Proceedings - 2021 IEEE International Conference on Smart Computing, SMARTCOMP 2021).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - TRANSIT-GYM

T2 - 7th IEEE International Conference on Smart Computing, SMARTCOMP 2021

AU - Sun, Ruixiao

AU - Gui, Rongze

AU - Neema, Himanshu

AU - Chen, Yuche

AU - Ugirumurera, Juliette

AU - Severino, Joseph

AU - Pugliese, Philip

AU - Laszka, Aron

AU - Dubey, Abhishek

PY - 2021/8

Y1 - 2021/8

N2 - Public-transit systems face a number of operational challenges: (a) changing ridership patterns requiring optimization of fixed line services, (b) optimizing vehicle-to-trip assignments to reduce maintenance and operation codes, and (c) ensuring equitable and fair coverage to areas with low ridership. Optimizing these objectives presents a hard computational problem due to the size and complexity of the decision space. State-of-the-art methods formulate these problems as variants of the vehicle routing problem and use data-driven heuristics for optimizing the procedures. However, the evaluation and training of these algorithms require large datasets that provide realistic coverage of various operational uncertainties. This paper presents a dynamic simulation platform, called TRANSIT-GYM, that can bridge this gap by providing the ability to simulate scenarios, focusing on variation of demand models, variations of route networks, and variations of vehicle-to-trip assignments. The central contribution of this work is a domain-specific language and associated experimentation tool-chain and infrastructure to enable subject-matter experts to intuitively specify, simulate, and analyze large-scale transit scenarios and their parametric variations. Of particular significance is an integrated microscopic energy consumption model that also helps to analyze the energy cost of various transit decisions made by the transportation agency of a city.

AB - Public-transit systems face a number of operational challenges: (a) changing ridership patterns requiring optimization of fixed line services, (b) optimizing vehicle-to-trip assignments to reduce maintenance and operation codes, and (c) ensuring equitable and fair coverage to areas with low ridership. Optimizing these objectives presents a hard computational problem due to the size and complexity of the decision space. State-of-the-art methods formulate these problems as variants of the vehicle routing problem and use data-driven heuristics for optimizing the procedures. However, the evaluation and training of these algorithms require large datasets that provide realistic coverage of various operational uncertainties. This paper presents a dynamic simulation platform, called TRANSIT-GYM, that can bridge this gap by providing the ability to simulate scenarios, focusing on variation of demand models, variations of route networks, and variations of vehicle-to-trip assignments. The central contribution of this work is a domain-specific language and associated experimentation tool-chain and infrastructure to enable subject-matter experts to intuitively specify, simulate, and analyze large-scale transit scenarios and their parametric variations. Of particular significance is an integrated microscopic energy consumption model that also helps to analyze the energy cost of various transit decisions made by the transportation agency of a city.

KW - Transit simulation

KW - data-driven optimization

KW - domain-specific modeling language

KW - micro-simulation

KW - regional transportation system

KW - traffic simulation

KW - transportation planning

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U2 - 10.1109/SMARTCOMP52413.2021.00030

DO - 10.1109/SMARTCOMP52413.2021.00030

M3 - Conference contribution

AN - SCOPUS:85117576210

T3 - Proceedings - 2021 IEEE International Conference on Smart Computing, SMARTCOMP 2021

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BT - Proceedings - 2021 IEEE International Conference on Smart Computing, SMARTCOMP 2021

PB - Institute of Electrical and Electronics Engineers Inc.

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ER -

Sun R, Gui R, Neema H, Chen Y, Ugirumurera J, Severino J et al. TRANSIT-GYM: A Simulation and Evaluation Engine for Analysis of Bus Transit Systems. In Proceedings - 2021 IEEE International Conference on Smart Computing, SMARTCOMP 2021. Institute of Electrical and Electronics Engineers Inc. 2021. p. 69-76. (Proceedings - 2021 IEEE International Conference on Smart Computing, SMARTCOMP 2021). doi: 10.1109/SMARTCOMP52413.2021.00030

TRANSIT-GYM: A Simulation and Evaluation Engine for Analysis of Bus Transit Systems

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