Hostname: page-component-848d4c4894-ttngx Total loading time: 0 Render date: 2024-05-17T00:48:08.528Z Has data issue: false hasContentIssue false
  • English
  • Français

Free Flow–Efficiency of a One-way Traffic Lane between two Pylons

Published online by Cambridge University Press:  02 July 2013

Toke Koldborg Jensen ,
Martin Gamborg Hansen ,
Tue Lehn-Schiøler ,
Kristina Melchild ,
Finn Mølsted Rasmussen  and
Finn Ennemark
Toke Koldborg Jensen*
Affiliation:
(Rambøll, Hannemanns Allé 53, DK-2300 København S)
Martin Gamborg Hansen
Affiliation:
(Rambøll, Hannemanns Allé 53, DK-2300 København S)
Tue Lehn-Schiøler
Affiliation:
(Rambøll, Hannemanns Allé 53, DK-2300 København S)
Kristina Melchild
Affiliation:
(Rambøll, Hannemanns Allé 53, DK-2300 København S)
Finn Mølsted Rasmussen
Affiliation:
(Rambøll, Hannemanns Allé 53, DK-2300 København S)
Finn Ennemark
Affiliation:
(Femern A/S Vester Søgade 10, 1601 København V)
*
(E-mail: TOKJ@ramboll.dk)
Get access Rights & Permissions [Opens in a new window]

Abstract

Ships navigate freely when in the open sea, but their freedom of movement is reduced in areas with intense traffic, restricted draught or obstacles. In such cases, a traffic separation scheme (TSS) can be established to guide the ship traffic. This paper is based on work performed in connection with a proposed bridge across Fehmarnbelt between Denmark and Germany, and the purpose is to estimate the efficiency of a TSS guiding traffic through the main bridge openings. The efficiency in terms of getting the traffic through the traffic lanes without the TSS hindering traffic flow is an important decision parameter in the bridge design process. In this paper, we present a new “free flow” paradigm based on an innovative, dynamic application of the ship domain theory.

Keywords

Free flowTraffic Separation SchemeShip domain theoryNavigation
Type
Research Article
Information
The Journal of Navigation , Volume 66 , Issue 6 , November 2013 , pp. 941 - 951
Copyright
Copyright © The Royal Institute of Navigation 2013 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

COLREG. (1972). Convention on the International Regulations for Preventing Collisions at Sea. International Maritime Organization (IMO).Google Scholar
Frandsen, A. G., Olsen., D., Lund, H. T., Bach, P. E. & Gerwick, B. C. (1991). Evaluation of Minimum Bridge Span Openings Applying Ship Domain Theory, Transportation Research Record, 1313, 8390.Google Scholar
Fujii, Y. & Tanaka, K. (1971). Traffic Capacity. The Journal of Navigation, 24, 543552.CrossRefGoogle Scholar
Fujii, Y., Yamanouchi, H. & Matui, T. S. (1984). Survey on Vessel Traffic Management Systems and Brief Introduction to Marine Traffic Studies, Electronic Navigation Research Institute Papers (Japan), 84.Google Scholar
Goodwin, E. M. (1975). A statistical study of ship domains. The Journal of Navigation, 28, 329341.CrossRefGoogle Scholar
Hansen, M. G., Lehn-Schiøler, T., Melchild, K., Jensen, T. K., Rasmussen, F. M., & Ennemark, F. (2013), Empirical Ship Domains based on AIS Data, to be published in The Journal of Navigation, 66.CrossRefGoogle Scholar
Mizuki, N. & Fujii, Y. (1997). The Fourth Survey on Vessel Traffic Services in the World, Electronic Navigation Research Institute (Japan), 89.Google Scholar
NAV51 (2005). Routing of ships, ship reporting and related matters – Assessment of the traffic in the Baltic Sea West, Sub-Committee on Safety of Navigation (IMO), 51st session.Google Scholar
Pietrzykowski, Z. & Uriasz, J. (2009). The Ship Domain – A Criterion of Navigational Safety Assessment in an Open Sea Area, Journal of Navigation, 62, 93108.CrossRefGoogle Scholar
Seong, Y. C., Jeong, J. S., Park, G. K. (2012). The Relation with Width of Fairway and Marine Traffic Flow, TransNav, International Journal on Marine Navigation and Safety of Sea Transportation, 6(3), 317321.Google Scholar
SOLAS. (1974). International Convention for the Safety of Life at Sea. International Maritime Organization.Google Scholar
Wang, N., Meng, X., Xu, Q. & Wang, Z., (2009). A Unified Analytical Framework for Ship Domains, The Journal of Navigation, 62, 643655.CrossRefGoogle Scholar
Yip, T. L. (2013). A Marine Traffic Flow Model, TransNav, International Journal on Marine Navigation and Safety of Sea Transportation, 7(1), 109113.CrossRefGoogle Scholar