Layout analysis affecting strategic decisions in artificial container terminals

Abstract As a result of a major growth in world trade, importance of the container terminals, which are the exit gates of international maritime trade, has been emphasized and the competition between these terminals has increased. In recent years, increasing competition in shallow seas, which have low berth depth and intensive trade, has caused terminal managers to investigate how the strategic decisions affect the future development of terminal operations. Due to their low berth depth, container terminals in the feeder ports of shallow seas are built artificially near coastlines. The most common layouts found in these terminals are Π, L, π, or Ψ. In this paper, simulation models were developed for the container terminals to examine the effect of transporter dispatching rules and resource allocation strategies in terms of total annual handling amount. According to the results, terminal performance is significantly affected by terminal layout design under different transporter dispatching rules and allocation strategies.

[1]  Katta G. Murty,et al.  Effect of block length and yard crane deployment systems on overall performance at a seaport container transshipment terminal , 2009, Comput. Oper. Res..

[2]  Iris F. A. Vis,et al.  Performance analysis of berth configurations at container terminals , 2010, OR Spectr..

[3]  Kwang Ryel Ryu,et al.  Comparison of operations of AGVs and ALVs in an automated container terminal , 2011, J. Intell. Manuf..

[4]  Katta G. Murty,et al.  A decision support system for operations in a container terminal , 2005, Decis. Support Syst..

[5]  Stefan Voß,et al.  Container terminal operation and operations research - a classification and literature review , 2004, OR Spectr..

[6]  Erhan Kozan,et al.  An approach to determine storage locations of containers at seaport terminals , 2001, Comput. Oper. Res..

[7]  Stefan Voß,et al.  Operations research at container terminals: a literature update , 2007, OR Spectr..

[8]  Hans-Otto Günther,et al.  Strategies for improving a long-established terminal’s performance: a simulation study of a Turkish container terminal , 2013 .

[9]  Matthew E. H. Petering Effect of Block Width and Storage Yard Layout on Marine Container Terminal Performance , 2009 .

[10]  Loo Hay Lee,et al.  A yard storage strategy for minimizing traffic congestion in a marine container transshipment hub , 2008, OR Spectr..

[11]  Iris F. A. Vis,et al.  Transshipment of containers at a container terminal: An overview , 2003, Eur. J. Oper. Res..

[12]  Nils Kemme,et al.  Effects of storage block layout and automated yard crane systems on the performance of seaport container terminals , 2012, OR Spectr..

[13]  Petros A. Ioannou,et al.  AUTOMATED GUIDED VEHICLE SYSTEM FOR TWO CONTAINER YARD LAYOUTS , 2004 .

[14]  James R. Morrison,et al.  Offshore port service concepts: classification and economic feasibility , 2012 .

[15]  Yong Seok Choi,et al.  Simulation-based performance evaluation of transport vehicles at automated container terminals , 2004, OR Spectr..

[16]  Matthias Lehmann,et al.  Strategies for dispatching AGVs at automated seaport container terminals , 2006, OR Spectr..

[17]  Katta G. Murty,et al.  Hongkong International Terminals Gains Elastic Capacity Using a Data-Intensive Decision-Support System , 2005, Interfaces.

[18]  Kap Hwan Kim,et al.  An architectural design of control software for automated container terminals , 2004, Comput. Ind. Eng..

[19]  B J Wook,et al.  A POOLED DISPATCHING STRATEGY FOR AUTOMATED GUIDED VEHICLES IN PORT CONTAINER TERMINALS , 2000 .

[20]  Loo Hay Lee,et al.  An optimization model for storage yard management in transshipment hubs , 2006, OR Spectr..

[21]  Paul Davidsson,et al.  Evaluation of Automated Guided Vehicle Systems for Container Terminals Using Multi Agent Based Simulation , 2009, MABS.

[22]  Kap Hwan Kim,et al.  An optimal layout of container yards , 2008, OR Spectr..

[23]  Kap Hwan Kim,et al.  Container terminals and terminal operations , 2006, OR Spectr..

[24]  Erhan Kozan,et al.  Optimization of container process at seaport terminals , 2010, J. Oper. Res. Soc..

[25]  Kap Hwan Kim,et al.  A dispatching method for automated lifting vehicles in automated port container terminals , 2009, Comput. Ind. Eng..

[26]  Nima Safaei,et al.  A genetic algorithm to solve the storage space allocation problem in a container terminal , 2009, Comput. Ind. Eng..