Flow metering and lane-changing optimal control with ramp-metering saturation

Farzam Tajdari; Hasan Ramezanian; Shadi Paydarfar; Ali Lashgari; Shakib Maghrebi

doi:10.1109/RTEST56034.2022.9850109

Flow metering and lane-changing optimal control with ramp-metering saturation

Farzam Tajdari, Hasan Ramezanian, Shadi Paydarfar, Ali Lashgari, Shakib Maghrebi

Research output: Chapter in Book/Report/Conference proceeding › Conference article in proceedings › Scientific › peer-review

4 Citations (Scopus)

Abstract

To accomplish a successful transportation frame-work, we present a new approach to incorporate lane-changing and ramp-metering control, which includes the presence of partially connected and autonomous vehicles. The primary test tended to is coordinating the ramp-metering flow saturation boundaries in the optimal controller. Specifically, a level of vehicles is expected to get and carry out explicit control assignments (e.g., lane-changing control signals). Utilizing a Linear Quadratic Integral (LQI) controller and an anti-windup plan in view of a LTI model, another methodology is introduced for powerfully expanding the throughput at motorway bottlenecks. In terms of assessment, the methodology is implemented on the simulated model, uses a macroscopic traffic model which is a first-order flow model including multi-lane. The capacity drop peculiarity is additionally executed, that addresses the effect of the created method to deal with be demonstrated, same as the improvements in rush hour traffic effectiveness.

Original language	English
Title of host publication	Proceedings - 2022 CPSSI 4th International Symposium on Real-Time and Embedded Systems and Technologies, RTEST 2022
Publisher	IEEE
Number of pages	6
ISBN (Electronic)	978-1-6654-9910-1
DOIs	https://doi.org/10.1109/RTEST56034.2022.9850109
Publication status	Published - 2022
MoE publication type	A4 Conference publication
Event	CPSSI International Symposium on Real-Time and Embedded Systems and Technologies - Tehran, Iran, Islamic Republic of Duration: 30 May 2022 → 31 May 2022 Conference number: 4

Publication series

Name	Proceedings - 2022 CPSSI 4th International Symposium on Real-Time and Embedded Systems and Technologies, RTEST 2022

Conference

Conference	CPSSI International Symposium on Real-Time and Embedded Systems and Technologies
Abbreviated title	RTEST
Country/Territory	Iran, Islamic Republic of
City	Tehran
Period	30/05/2022 → 31/05/2022

Keywords

Connected and automated vehicles
Lane-changing
Optimal control
Ramp-metering
Saturation

Access to Document

10.1109/RTEST56034.2022.9850109

Cite this

Tajdari, F., Ramezanian, H., Paydarfar, S., Lashgari, A., & Maghrebi, S. (2022). Flow metering and lane-changing optimal control with ramp-metering saturation. In Proceedings - 2022 CPSSI 4th International Symposium on Real-Time and Embedded Systems and Technologies, RTEST 2022 (Proceedings - 2022 CPSSI 4th International Symposium on Real-Time and Embedded Systems and Technologies, RTEST 2022). IEEE. https://doi.org/10.1109/RTEST56034.2022.9850109

Tajdari, Farzam ; Ramezanian, Hasan ; Paydarfar, Shadi et al. / Flow metering and lane-changing optimal control with ramp-metering saturation. Proceedings - 2022 CPSSI 4th International Symposium on Real-Time and Embedded Systems and Technologies, RTEST 2022. IEEE, 2022. (Proceedings - 2022 CPSSI 4th International Symposium on Real-Time and Embedded Systems and Technologies, RTEST 2022).

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title = "Flow metering and lane-changing optimal control with ramp-metering saturation",

abstract = "To accomplish a successful transportation frame-work, we present a new approach to incorporate lane-changing and ramp-metering control, which includes the presence of partially connected and autonomous vehicles. The primary test tended to is coordinating the ramp-metering flow saturation boundaries in the optimal controller. Specifically, a level of vehicles is expected to get and carry out explicit control assignments (e.g., lane-changing control signals). Utilizing a Linear Quadratic Integral (LQI) controller and an anti-windup plan in view of a LTI model, another methodology is introduced for powerfully expanding the throughput at motorway bottlenecks. In terms of assessment, the methodology is implemented on the simulated model, uses a macroscopic traffic model which is a first-order flow model including multi-lane. The capacity drop peculiarity is additionally executed, that addresses the effect of the created method to deal with be demonstrated, same as the improvements in rush hour traffic effectiveness. ",

keywords = "Connected and automated vehicles, Lane-changing, Optimal control, Ramp-metering, Saturation",

author = "Farzam Tajdari and Hasan Ramezanian and Shadi Paydarfar and Ali Lashgari and Shakib Maghrebi",

note = "Publisher Copyright: {\textcopyright} 2022 IEEE.; CPSSI International Symposium on Real-Time and Embedded Systems and Technologies, RTEST ; Conference date: 30-05-2022 Through 31-05-2022",

year = "2022",

doi = "10.1109/RTEST56034.2022.9850109",

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series = "Proceedings - 2022 CPSSI 4th International Symposium on Real-Time and Embedded Systems and Technologies, RTEST 2022",

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Tajdari, F, Ramezanian, H, Paydarfar, S, Lashgari, A & Maghrebi, S 2022, Flow metering and lane-changing optimal control with ramp-metering saturation. in Proceedings - 2022 CPSSI 4th International Symposium on Real-Time and Embedded Systems and Technologies, RTEST 2022. Proceedings - 2022 CPSSI 4th International Symposium on Real-Time and Embedded Systems and Technologies, RTEST 2022, IEEE, CPSSI International Symposium on Real-Time and Embedded Systems and Technologies, Tehran, Iran, Islamic Republic of, 30/05/2022. https://doi.org/10.1109/RTEST56034.2022.9850109

Flow metering and lane-changing optimal control with ramp-metering saturation. / Tajdari, Farzam; Ramezanian, Hasan; Paydarfar, Shadi et al.
Proceedings - 2022 CPSSI 4th International Symposium on Real-Time and Embedded Systems and Technologies, RTEST 2022. IEEE, 2022. (Proceedings - 2022 CPSSI 4th International Symposium on Real-Time and Embedded Systems and Technologies, RTEST 2022).

Research output: Chapter in Book/Report/Conference proceeding › Conference article in proceedings › Scientific › peer-review

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AU - Tajdari, Farzam

AU - Ramezanian, Hasan

AU - Paydarfar, Shadi

AU - Lashgari, Ali

AU - Maghrebi, Shakib

N1 - Conference code: 4

PY - 2022

Y1 - 2022

N2 - To accomplish a successful transportation frame-work, we present a new approach to incorporate lane-changing and ramp-metering control, which includes the presence of partially connected and autonomous vehicles. The primary test tended to is coordinating the ramp-metering flow saturation boundaries in the optimal controller. Specifically, a level of vehicles is expected to get and carry out explicit control assignments (e.g., lane-changing control signals). Utilizing a Linear Quadratic Integral (LQI) controller and an anti-windup plan in view of a LTI model, another methodology is introduced for powerfully expanding the throughput at motorway bottlenecks. In terms of assessment, the methodology is implemented on the simulated model, uses a macroscopic traffic model which is a first-order flow model including multi-lane. The capacity drop peculiarity is additionally executed, that addresses the effect of the created method to deal with be demonstrated, same as the improvements in rush hour traffic effectiveness.

AB - To accomplish a successful transportation frame-work, we present a new approach to incorporate lane-changing and ramp-metering control, which includes the presence of partially connected and autonomous vehicles. The primary test tended to is coordinating the ramp-metering flow saturation boundaries in the optimal controller. Specifically, a level of vehicles is expected to get and carry out explicit control assignments (e.g., lane-changing control signals). Utilizing a Linear Quadratic Integral (LQI) controller and an anti-windup plan in view of a LTI model, another methodology is introduced for powerfully expanding the throughput at motorway bottlenecks. In terms of assessment, the methodology is implemented on the simulated model, uses a macroscopic traffic model which is a first-order flow model including multi-lane. The capacity drop peculiarity is additionally executed, that addresses the effect of the created method to deal with be demonstrated, same as the improvements in rush hour traffic effectiveness.

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KW - Optimal control

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PB - IEEE

T2 - CPSSI International Symposium on Real-Time and Embedded Systems and Technologies

Y2 - 30 May 2022 through 31 May 2022

ER -

Tajdari F, Ramezanian H, Paydarfar S, Lashgari A, Maghrebi S. Flow metering and lane-changing optimal control with ramp-metering saturation. In Proceedings - 2022 CPSSI 4th International Symposium on Real-Time and Embedded Systems and Technologies, RTEST 2022. IEEE. 2022. (Proceedings - 2022 CPSSI 4th International Symposium on Real-Time and Embedded Systems and Technologies, RTEST 2022). doi: 10.1109/RTEST56034.2022.9850109

Flow metering and lane-changing optimal control with ramp-metering saturation

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