Networks of fixed-cycle intersections

Marko A.A. Boon; Johan S.H. van Leeuwaarden

doi:10.1016/j.trb.2018.08.019

Networks of fixed-cycle intersections

Marko A.A. Boon
, Johan S.H. van Leeuwaarden

Stochastic Operations Research

Onderzoeksoutput: Bijdrage aan tijdschrift › Tijdschriftartikel › Academic › peer review

12 Citaten (Scopus)

181 Downloads (Pure)

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We present an algorithmic method for analyzing networks of intersections with static signaling, with as primary example a line network that allows traffic flow over several intersections in one main direction. The method decomposes the network into separate intersections and treats each intersection in isolation using an extension of the fixed-cycle traffic-light (FCTL) queue. The network effects are modeled by matching the output process of one intersection with the input process of the next (downstream) intersection. This network analysis provides insight into wave phenomena due to vehicles experiencing progressive cascades of green lights and sheds light on platoon forming in case of imperfections. Our algorithm is shown to match results from extensive discrete-event simulations and can also be applied to more complex network structures.

Originele taal-2	Engels
Pagina's (van-tot)	254-271
Aantal pagina's	18
Tijdschrift	Transportation Research. Part B: Methodological
Volume	117
DOI's	https://doi.org/10.1016/j.trb.2018.08.019
Status	Gepubliceerd - 1 nov. 2018

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This work is supported by the NWO Gravitation Networks grant 024.002.003 . The work of JvL is further supported by an NWO TOP-GO grant and by an ERC Starting Grant. Appendix A

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title = "Networks of fixed-cycle intersections",

abstract = "We present an algorithmic method for analyzing networks of intersections with static signaling, with as primary example a line network that allows traffic flow over several intersections in one main direction. The method decomposes the network into separate intersections and treats each intersection in isolation using an extension of the fixed-cycle traffic-light (FCTL) queue. The network effects are modeled by matching the output process of one intersection with the input process of the next (downstream) intersection. This network analysis provides insight into wave phenomena due to vehicles experiencing progressive cascades of green lights and sheds light on platoon forming in case of imperfections. Our algorithm is shown to match results from extensive discrete-event simulations and can also be applied to more complex network structures.",

keywords = "Fixed-cycle traffic-light queue, Performance evaluation, Queueing theory, Steady-state distribution, Stochastic networks, Traffic engineering, Transform solution",

author = "Boon, \{Marko A.A.\} and \{van Leeuwaarden\}, \{Johan S.H.\}",

year = "2018",

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doi = "10.1016/j.trb.2018.08.019",

language = "English",

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T1 - Networks of fixed-cycle intersections

AU - Boon, Marko A.A.

AU - van Leeuwaarden, Johan S.H.

PY - 2018/11/1

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N2 - We present an algorithmic method for analyzing networks of intersections with static signaling, with as primary example a line network that allows traffic flow over several intersections in one main direction. The method decomposes the network into separate intersections and treats each intersection in isolation using an extension of the fixed-cycle traffic-light (FCTL) queue. The network effects are modeled by matching the output process of one intersection with the input process of the next (downstream) intersection. This network analysis provides insight into wave phenomena due to vehicles experiencing progressive cascades of green lights and sheds light on platoon forming in case of imperfections. Our algorithm is shown to match results from extensive discrete-event simulations and can also be applied to more complex network structures.

AB - We present an algorithmic method for analyzing networks of intersections with static signaling, with as primary example a line network that allows traffic flow over several intersections in one main direction. The method decomposes the network into separate intersections and treats each intersection in isolation using an extension of the fixed-cycle traffic-light (FCTL) queue. The network effects are modeled by matching the output process of one intersection with the input process of the next (downstream) intersection. This network analysis provides insight into wave phenomena due to vehicles experiencing progressive cascades of green lights and sheds light on platoon forming in case of imperfections. Our algorithm is shown to match results from extensive discrete-event simulations and can also be applied to more complex network structures.

KW - Fixed-cycle traffic-light queue

KW - Performance evaluation

KW - Queueing theory

KW - Steady-state distribution

KW - Stochastic networks

KW - Traffic engineering

KW - Transform solution

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DO - 10.1016/j.trb.2018.08.019

M3 - Article

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SP - 254

EP - 271

JO - Transportation Research. Part B: Methodological

JF - Transportation Research. Part B: Methodological

ER -

Networks of fixed-cycle intersections

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