A HYBRID SELF-ORGANIZING SCHEDULING METHOD FOR SHIPS IN RESTRICTED TWO-WAY WATERWAYS

Traffic conflicts between ships are one of the most important reasons causing delays in restricted waterways. Aiming to improve the traffic efficiency, a hybrid self-organizing scheduling (HSOS) method for restricted two-way waterways is proposed. Ship transportation system is treated as a distribut...

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Main Authors: Hongbo Wang, Jinfen Zhang, Yongjiang Li, Wuliu Tian
Format: Article
Language:English
Published: Faculty of Mechanical Engineering and Naval Architecture 2020-01-01
Series:Brodogradnja
Online Access:https://hrcak.srce.hr/file/344589
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spelling doaj-618a0aa844ca4c57a4e3dbc7abf01a922020-11-25T03:38:40ZengFaculty of Mechanical Engineering and Naval ArchitectureBrodogradnja0007-215X1845-58592020-01-01712153010.21278/brod71202237295A HYBRID SELF-ORGANIZING SCHEDULING METHOD FOR SHIPS IN RESTRICTED TWO-WAY WATERWAYSHongbo Wang0Jinfen Zhang1Yongjiang Li2Wuliu Tian3Maritime College, Guangdong Ocean University, Zhanjiang, ChinaNational Engineering Research Center for Water Transport Safety, Wuhan University of Technology, Wuhan, ChinaSchool of Mathematics and Computer, Guangdong Ocean University, Zhanjiang, ChinaMaritime college, Beibu Gulf University, Qinzhou, ChinaTraffic conflicts between ships are one of the most important reasons causing delays in restricted waterways. Aiming to improve the traffic efficiency, a hybrid self-organizing scheduling (HSOS) method for restricted two-way waterways is proposed. Ship transportation system is treated as a distributive and self-organized system under uncertainties. Each ship makes the decision on when to enter the waterway and how to keep the safe distance between them, while the VTS center could manage the direction of traffic flow according to the navigation situations. In order to reduce the traffic conflict between the opposite directions, small ships are given higher priority than the large ships in the same direction. When the large ships are accumulating, they are given higher priority than small ships in the same direction. The large ships are delayed while small ships decrease the waiting time. The trade-off between small and large ships can enhance efficiency by accumulating the large ships. Comparing the results from HSOS with First Come First Served (FCFS), it can effectively reduce the average delays brought by large ships, especially at high arrival rates.https://hrcak.srce.hr/file/344589
collection DOAJ
language English
format Article
sources DOAJ
author Hongbo Wang
Jinfen Zhang
Yongjiang Li
Wuliu Tian
spellingShingle Hongbo Wang
Jinfen Zhang
Yongjiang Li
Wuliu Tian
A HYBRID SELF-ORGANIZING SCHEDULING METHOD FOR SHIPS IN RESTRICTED TWO-WAY WATERWAYS
Brodogradnja
author_facet Hongbo Wang
Jinfen Zhang
Yongjiang Li
Wuliu Tian
author_sort Hongbo Wang
title A HYBRID SELF-ORGANIZING SCHEDULING METHOD FOR SHIPS IN RESTRICTED TWO-WAY WATERWAYS
title_short A HYBRID SELF-ORGANIZING SCHEDULING METHOD FOR SHIPS IN RESTRICTED TWO-WAY WATERWAYS
title_full A HYBRID SELF-ORGANIZING SCHEDULING METHOD FOR SHIPS IN RESTRICTED TWO-WAY WATERWAYS
title_fullStr A HYBRID SELF-ORGANIZING SCHEDULING METHOD FOR SHIPS IN RESTRICTED TWO-WAY WATERWAYS
title_full_unstemmed A HYBRID SELF-ORGANIZING SCHEDULING METHOD FOR SHIPS IN RESTRICTED TWO-WAY WATERWAYS
title_sort hybrid self-organizing scheduling method for ships in restricted two-way waterways
publisher Faculty of Mechanical Engineering and Naval Architecture
series Brodogradnja
issn 0007-215X
1845-5859
publishDate 2020-01-01
description Traffic conflicts between ships are one of the most important reasons causing delays in restricted waterways. Aiming to improve the traffic efficiency, a hybrid self-organizing scheduling (HSOS) method for restricted two-way waterways is proposed. Ship transportation system is treated as a distributive and self-organized system under uncertainties. Each ship makes the decision on when to enter the waterway and how to keep the safe distance between them, while the VTS center could manage the direction of traffic flow according to the navigation situations. In order to reduce the traffic conflict between the opposite directions, small ships are given higher priority than the large ships in the same direction. When the large ships are accumulating, they are given higher priority than small ships in the same direction. The large ships are delayed while small ships decrease the waiting time. The trade-off between small and large ships can enhance efficiency by accumulating the large ships. Comparing the results from HSOS with First Come First Served (FCFS), it can effectively reduce the average delays brought by large ships, especially at high arrival rates.
url https://hrcak.srce.hr/file/344589
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