The Same Entrance Full-Pass (SEFP) Control Method for the Prevention of Over-Saturation at the Critical Intersection

The Same Entrance Full-Pass (SEFP) Control Method for the Prevention of Over-Saturation at the Critical Intersection

Traffic congestion will lead to a series of negative effects. In order to alleviate congestion and evacuate queuing vehicles as soon as possible, traffic control at the critical intersection is particularly important. In this paper, the Same Entrance Full-Pass (SEFP) control method for the preventio...

Full description

Bibliographic Details
Main Authors: Hui Shen, Daoguang Liu, Zhigui Liu
Format: Article
Language:English
Published: IEEE 2020-01-01
Series:IEEE Access
Subjects:
Over-saturation
the critical intersection
the same entrance full-pass
Online Access:https://ieeexplore.ieee.org/document/9162429/
id doaj-4b34c165ff234f7eacd72df374c09579
record_format Article
spelling doaj-4b34c165ff234f7eacd72df374c095792021-03-30T04:52:56ZengIEEEIEEE Access2169-35362020-01-01814397514398410.1109/ACCESS.2020.30145309162429The Same Entrance Full-Pass (SEFP) Control Method for the Prevention of Over-Saturation at the Critical IntersectionHui Shen0https://orcid.org/0000-0001-6000-8010Daoguang Liu1Zhigui Liu2https://orcid.org/0000-0001-6000-8010Information Engineering School, Southwest University of Science and Technology, Mianyang, ChinaInformation Engineering School, Southwest University of Science and Technology, Mianyang, ChinaInformation Engineering School, Southwest University of Science and Technology, Mianyang, ChinaTraffic congestion will lead to a series of negative effects. In order to alleviate congestion and evacuate queuing vehicles as soon as possible, traffic control at the critical intersection is particularly important. In this paper, the Same Entrance Full-Pass (SEFP) control method for the prevention of over-saturation at the critical intersection is proposed, which allows all vehicles coming from the same entrance to be released at the same time, avoiding the drawbacks of the traditional release mode. In the meantime, the three-turn traffic flows moving into the same downstream section of the adjacent intersection are controlled synchronously to limit the number of vehicles heading for the critical intersection effectively. By using the traffic wave theory, the signal offsets between the critical intersection and its adjacent intersections are calculated for signal coordinated control, which can ensure all the vehicles coming from the same entrance pass the stop line of the critical intersection directly with no stop, thus improving the operation efficiency of the critical intersection and preventing the traffic over-saturation. To avoid vehicle retention and accumulation on the entrance lanes of the critical intersection, ground sense coils are employed to detect the vehicle queuing and the closure control is carried out at the adjacent intersections according to the real queue length, making the traffic indexes (the total traffic volume, vehicle delay and queuing length) improved greatly. The simulation results of the actual critical intersection and its adjacent intersections confirm the effectiveness and practicability of the proposed SEFP method.https://ieeexplore.ieee.org/document/9162429/Over-saturationthe critical intersectionthe same entrance full-pass
collection DOAJ
language English
format Article
sources DOAJ
author Hui Shen
Daoguang Liu
Zhigui Liu
spellingShingle Hui Shen
Daoguang Liu
Zhigui Liu
The Same Entrance Full-Pass (SEFP) Control Method for the Prevention of Over-Saturation at the Critical Intersection
IEEE Access
Over-saturation
the critical intersection
the same entrance full-pass
author_facet Hui Shen
Daoguang Liu
Zhigui Liu
author_sort Hui Shen
title The Same Entrance Full-Pass (SEFP) Control Method for the Prevention of Over-Saturation at the Critical Intersection
title_short The Same Entrance Full-Pass (SEFP) Control Method for the Prevention of Over-Saturation at the Critical Intersection
title_full The Same Entrance Full-Pass (SEFP) Control Method for the Prevention of Over-Saturation at the Critical Intersection
title_fullStr The Same Entrance Full-Pass (SEFP) Control Method for the Prevention of Over-Saturation at the Critical Intersection
title_full_unstemmed The Same Entrance Full-Pass (SEFP) Control Method for the Prevention of Over-Saturation at the Critical Intersection
title_sort same entrance full-pass (sefp) control method for the prevention of over-saturation at the critical intersection
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2020-01-01
description Traffic congestion will lead to a series of negative effects. In order to alleviate congestion and evacuate queuing vehicles as soon as possible, traffic control at the critical intersection is particularly important. In this paper, the Same Entrance Full-Pass (SEFP) control method for the prevention of over-saturation at the critical intersection is proposed, which allows all vehicles coming from the same entrance to be released at the same time, avoiding the drawbacks of the traditional release mode. In the meantime, the three-turn traffic flows moving into the same downstream section of the adjacent intersection are controlled synchronously to limit the number of vehicles heading for the critical intersection effectively. By using the traffic wave theory, the signal offsets between the critical intersection and its adjacent intersections are calculated for signal coordinated control, which can ensure all the vehicles coming from the same entrance pass the stop line of the critical intersection directly with no stop, thus improving the operation efficiency of the critical intersection and preventing the traffic over-saturation. To avoid vehicle retention and accumulation on the entrance lanes of the critical intersection, ground sense coils are employed to detect the vehicle queuing and the closure control is carried out at the adjacent intersections according to the real queue length, making the traffic indexes (the total traffic volume, vehicle delay and queuing length) improved greatly. The simulation results of the actual critical intersection and its adjacent intersections confirm the effectiveness and practicability of the proposed SEFP method.
topic Over-saturation
the critical intersection
the same entrance full-pass
url https://ieeexplore.ieee.org/document/9162429/
work_keys_str_mv AT huishen thesameentrancefullpasssefpcontrolmethodforthepreventionofoversaturationatthecriticalintersection
AT daoguangliu thesameentrancefullpasssefpcontrolmethodforthepreventionofoversaturationatthecriticalintersection
AT zhiguiliu thesameentrancefullpasssefpcontrolmethodforthepreventionofoversaturationatthecriticalintersection
AT huishen sameentrancefullpasssefpcontrolmethodforthepreventionofoversaturationatthecriticalintersection
AT daoguangliu sameentrancefullpasssefpcontrolmethodforthepreventionofoversaturationatthecriticalintersection
AT zhiguiliu sameentrancefullpasssefpcontrolmethodforthepreventionofoversaturationatthecriticalintersection
_version_ 1724181092464852992

Similar Items