Containership Traffic Optimization on Feeder Shipping Line

1. Panarin, P.Ja. (1980) Organization of the operation of linear fleet. Moskva. Transport Publ. p 190.Search in Google Scholar

2. Panarin, P.Ja., Berjozov, P.N., Gorshkov, Ja.A., Doronin (1987) Improving the forms and methods of management of the fleet and ports. OIIMF Publ. Odessa. 88 p. reg. 01860099289.Search in Google Scholar

3. Bruev, A.P. (2004) Improved methods of planning and organization of cargo transportation in containers on river transport. Tesis. Nizhnij Novgorod. – 223 p.Search in Google Scholar

4. Bruev, A.P., Urtmincev, Ju.N. (2003) Logistical support of lines routing options. VGAVT Publ. Nizhnij Novgorod. pp. 23-32.Search in Google Scholar

5. Kirillov, Ju.I. (2013) Organization and Ship’s operation in Container transport and technological system. Tesis synopsis. Odessa,. - 24 p.Search in Google Scholar

6. Kovaleva, Ju.A. (2011) Classification of expenditure liner shipping companies with the influence of changes in the size of ship. Development management and transport management. No. 36. Odesa: ONMU. pp. 75-87.Search in Google Scholar

7. Savelieva, I.V., Drozhzhyn, O.L. (2014) Container transport-technology system as a way to implement the intermodal transportation. The Journal of Zhytomyr State Technological University. Series: Engineering. No.1 (68). pp. 12-16. ISSN: 1728-4260Search in Google Scholar

8. Polat, O., Günther, H.-O., Kulak, O. (2014) The containership feeder network design problem: the new Izmir port as hub in the Black Sea. Maritime Economics and Logistics. vol. 16, issue 3, pp. 343-369.10.1057/mel.2014.2Search in Google Scholar

9. Mingjun, Ji.M., Shen, L., Shi, B., Xue, Y., Wang, F. (2015) Routing optimization for multi-type containerships in a hub-and-spoke network. Journal of Traffic and Transportation Engineering (English Edition). Volume 2, Issue 5, October. pp. 362–372.Search in Google Scholar

10. Bendall, H.B., Stent, A.F. (2001). A scheduling model for a high speed containership service: a huband-spoke short-sea application. International Journal of Maritime Economics. 3.pp. 262–277.10.1057/palgrave.ijme.9100018Search in Google Scholar

11. Maraš, V., Konings, R., Radmilović, Z., Davidović, T. (2012) Towards the Optimal Solution of Feeder Container Ships Routing with Empty Container Repositioning. Journal of Maritime Research, Vol 9, No 3. pp. 11-20.Search in Google Scholar

12. Castells, M., Oses, Francisco Xavier Martínez (2006) Studies of suitability on short sea shipping routes in SW Europe. Journal of Maritime Research, Vol 3, No 2. pp. 43–50.Search in Google Scholar

13. Wilmsmeier, G., Notteboom, Th. (2011) Determinants of liner shipping network configuration: a two-region comparison. GeoJournal, 76. pp. 213–228.10.1007/s10708-009-9333-2Search in Google Scholar

14. Zenzerovic, Z. and Beslic, S. (2003) Optimization of cargo transport with a view to cost efficient operation of container ship. Information Technology Interfaces, 2003. ITI 2003. Proceedings of the 25th International Conference, 2003. pp. 531-536.10.1109/ITI.2003.1225398Search in Google Scholar

15. Tierney, K. (2013) Optimizing Liner Shipping Fleet Repositioning Plans. University of Copenhagen. 209 p.10.1007/978-3-642-33587-7_1Search in Google Scholar

16. Tsilingiris, P. (2005) A multi-stage decision-support methodology for the optimization-based liner-network design. National Technical University of Athens. 11 p.Search in Google Scholar

17. Brouer, B.D., Alvarez, J.F., Plum, Ch.E.M., Pisinger, D., Sigurd, M.M. (2010) An integer programming model and benchmark suite for liner shipping network design. Technical University of Denmark. 45 p.Search in Google Scholar