Simulation Studies Into Quayside Transport and Storage Yard Operations in Container Terminals

1. Carlo H.J., Vis I.F.A. and Roodbergen K.J.: Storage yard operations in container terminals: Literature overview, trends, and research directions, European Journal of Operational Research, Vol. 235 (2014), pp. 412-430.Search in Google Scholar

2. Carlo H.J., Vis I.F.A. and Roodbergen K.J.: Transport operations in container terminals: Literature overview, trends, research directions and classification scheme. European Journal of Operational Research, Vol. 236 (2014), pp. 1-13.Search in Google Scholar

3. Forster F. and Bortfeldt A.: A tree search procedure for the container relocation problem. Computers & Operations Research, Vol. 39 (2012), pp. 299-309.Search in Google Scholar

4. Groover M.P.: Automation, production systems, and computer-integrated manufacturing, Chapter 10, Pearson Prentice - Hall, New Jersey 2008.Search in Google Scholar

5. Günter H.O. and Kim K.H.: Container terminals and terminal operations, OR Spectrum, Vol. 28 (2006), pp. 437-445.10.1007/s00291-006-0059-ySearch in Google Scholar

6. Kia M., Shayan E. and Ghotb F.: Investigation of port capacity under a new approach by computer simulation, Computers & Industrial Engineering, Vol. 42 (2002), pp. 533-540.Search in Google Scholar

7. Murty K.G., Liu J., Wan Y. and Linn R.: A decision support system for operations in container terminal, Decision Support Systems, Vol. 39 (2005), pp. 309-332.Search in Google Scholar

8. Rashidi H. and Tsang E.P.K.: Novel constraints satisfaction models for optimization problems in container terminals. Applied Mathematical Modelling, Vol. 37 (2013), pp. 3601-3634.Search in Google Scholar

9. Steenken D., Voß S. and Stahlbock R.: Container terminal operation and operations research - a classification and literature review, OR Spectrum, Vol. 26 (2004), pp. 3-49.Search in Google Scholar

10. Urbanyi-Popiolek I. and Klopott M.: Container terminals and port city interface - a study of Gdynia and Gdansk ports, Transportation Research Procedia, Vol. 16 (2016), pp. 517-526.Search in Google Scholar

11. Vis I.F.A.: A comparative analysis of storage and retrieval equipment at container terminal, Intl. Journal of Production Economics, Vol. 103 (2006), pp. 680-693.Search in Google Scholar

12. Witness’ver.13. Visual Interactive Simulation Software, User manual, Lanner Group Ltd, Redditch-Worcs, UK 2010-2013.Search in Google Scholar

13. Won S.H. and Kim K.H.: An integrated framework for various operation plans in container terminals. Polish Maritime Research, No. 2 (2009), pp. 51-61.10.2478/v10012-008-0034-4Search in Google Scholar

14. Xin J., Negenborn R.R., Corman F. and Lodewijks G.: Control of interacting machines in automated container terminals using a sequential planning approach for collision avoidance. Transportation Research, Part C, Vol. 60 (2015), pp. 377-396.Search in Google Scholar

15. Yun W.Y. and Choi Y.S.: A simulation model for container- terminal operation analysis using an object-oriented approach, Intl. Journal of Production Economics, Vol. 59 (1999), pp. 221-230.Search in Google Scholar

16. Zhang X., Zeng Q. and Yang Z.: Modeling the mixed storage strategy for quay crane double cycling in container terminals. Transportation Research, Part E, Vol. 94 (2016), pp. 171-187.Search in Google Scholar

17. Zhen L., Xu Z., Wang K. and Ding Y.: Multi-period yard template planning in container terminals. Transportation Research, Part B, Vol. 93 (2016), pp. 700-719.Search in Google Scholar