Research Article
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Year 2017, Volume: 3 Issue: 1, 9 - 20, 30.06.2017
https://doi.org/10.17261/Pressacademia.2017.387

Abstract

References

  • Arnold, P., Peeters, D., & Thomas, I. (2004). Modelling a rail/road intermodal transportation system. Transportation Research Part E: Logistics and Transportation Review, 40(3), 255-270.
  • Assadipour, G., Ke, G. Y., & Verma, M. (2015). Planning and managing intermodal transportation of hazardous materials with capacity selection and congestion. Transportation Research Part E: Logistics and Transportation Review, 76, 45-57.
  • Bauer, J., Bektaş, T., & Crainic, T. G. (2010). Minimizing greenhouse gas emissions in intermodal freight transport: an application to rail service design. Journal of the Operational Research Society, 61(3), 530-542.
  • Baykasoğlu, A., & Subulan, K. (2016). A multi-objective sustainable load planning model for intermodal transportation networks with a reallife application. Transportation Research Part E: Logistics and Transportation Review, 95, 207-247.
  • Bhattacharya, A., Kumar, S. A., Tiwari, M. K., & Talluri, S. (2014). An intermodal freight transport system for optimal supply chain logistics. Transportation Research Part C: Emerging Technologies, 38, 73-84.
  • Bierwirth, C., Kirschstein, T., & Meisel, F. (2012). On transport service selection in intermodal rail/road distribution networks. BuR-Business Research, 5(2), 198-219.
  • Bruns, F., & Knust, S. (2012). Optimized load planning of trains in intermodal transportation. OR spectrum, 34(3), 511-533.
  • Chang, C. C., & Lai, T. C. (2013). Carbon allowance allocation in the transportation industry. Energy policy, 63, 1091-1097.
  • Chang, T. S. (2008). Best routes selection in international intermodal networks. Computers & operations research, 35(9), 2877-2891.
  • Cho, J. H., Kim, H. S., & Choi, H. R. (2012). An intermodal transport network planning algorithm using dynamic programming—a case study: from Busan to Rotterdam in intermodal freight routing. Applied Intelligence, 36(3), 529-541.
  • Choong, S. T., Cole, M. H., & Kutanoglu, E. (2002). Empty container management for intermodal transportation networks. Transportation Research Part E: Logistics and Transportation Review, 38(6), 423-438.
  • Demir, E., Burgholzer, W., Hrušovský, M., Arıkan, E., Jammernegg, W., & Van Woensel, T. (2015). A green intermodal service network design problem with travel time uncertainty. Transportation Research Part B: Methodological.
  • Di Febbraro, A., Sacco, N., & Saeednia, M. (2016). An agent-based framework for cooperative planning of intermodal freight transport chains. Transportation Research Part C: Emerging Technologies, 64, 72-85.
  • Duan, X., & Heragu, S. (2015, January). Carbon Emission Tax Policy in an Intermodal Transportation Network. In IIE Annual Conference. Proceedings (p. 566). Institute of Industrial Engineers-Publisher.
  • García, J., Florez, J. E., Torralba, Á., Borrajo, D., López, C. L., García-Olaya, Á., & Sáenz, J. (2013). Combining linear programming and automated planning to solve intermodal transportation problems. European Journal of Operational Research, 227(1), 216-226.
  • Ghane-Ezabadi, M., & Vergara, H. A. (2016). Decomposition approach for integrated intermodal logistics network design. Transportation Research Part E: Logistics and Transportation Review, 89, 53-69.
  • Hanaoka, S., & Kunadhamraks, P. (2009). Multiple criteria and fuzzy based evaluation of logistics performance for intermodal transportation. Journal of Advanced Transportation, 43(2), 123.
  • Janic, M. (2007). Modelling the full costs of an intermodal and road freight transport network. Transportation Research Part D: Transport and Environment, 12(1), 33-44.
  • Kalasová, A., Kapusta, J., & Toman, P. (2016). A Model of Transatlantic Intermodal Freight Transportation Between the European Continent and the United States 1/Model transatlantskog intermodalnog prijevoza tereta izmeðu Europe i Sjedinjenih Americkih Drzava. Nase More, 63(1), 5.
  • Kalinina, M., Olsson, L., & Larsson, A. (2013). A Multi Objective Chance Constrained Programming Model for Intermodal Logistics with Uncertain Time. International Journal of Computer Science Issues, 10(6), 35-44.
  • Kayikci, Y. (2010). A conceptual model for intermodal freight logistics centre location decisions. Procedia-Social and Behavioral Sciences, 2(3), 6297-6311.
  • Li, L., Negenborn, R. R., & De Schutter, B. (2015). Intermodal freight transport planning–a receding horizon control approach. Transportation Research Part C: Emerging Technologies, 60, 77-95.
  • Lin, C. C., & Lin, S. W. (2016). Two-stage approach to the intermodal terminal location problem. Computers & Operations Research, 67, 113-119.
  • Macharis, C., Caris, A., Jourquin, B., & Pekin, E. (2011). A decision support framework for intermodal transport policy. European Transport Research Review, 3(4), 167-178.
  • Meisel, F., Kirschstein, T., & Bierwirth, C. (2013). Integrated production and intermodal transportation planning in large scale production– distribution-networks. Transportation Research Part E: Logistics and Transportation Review, 60, 62-78.
  • Meng, Q., & Wang, X. (2011). Intermodal hub-and-spoke network design: incorporating multiple stakeholders and multi-type containers. Transportation Research Part B: Methodological, 45(4), 724-742.
  • Morlok, E. K., & Spasovic, L. N. (1994). Redesigning rail-truck intermodal drayage operations for enhanced service and cost performance. In Journal of the Transportation Research Forum (Vol. 34, No. 1).
  • Parola, F., & Sciomachen, A. (2005). Intermodal container flows in a port system network:: Analysis of possible growths via simulation models. International journal of production economics, 97(1), 75-88.
  • Puettmann, C., & Stadtler, H. (2010). A collaborative planning approach for intermodal freight transportation. OR spectrum, 32(3), 809-830.
  • Qu, Y., Bektaş, T., & Bennell, J. (2016). Sustainability SI: multimode multicommodity network design model for intermodal freight transportation with transfer and emission costs. Networks and Spatial Economics, 16(1), 303-329.
  • Rajkovic, R., Zrnic, N., & Stakic, D. (2016). Application of mathematical model for container transport flow of goods: from Far east to Serbia. Tehnički vjesnik, 23(6), 1739-1746.
  • Regmi, M. B., & Hanaoka, S. (2012). Assessment of intermodal transport corridors: Cases from North-East and Central Asia. Research in Transportation Business & Management, 5, 27-37.
  • Resat, H. G., & Turkay, M. (2015). Design and operation of intermodal transportation network in the Marmara region of Turkey. Transportation Research Part E: Logistics and Transportation Review, 83, 16-33.
  • Rothenbächer, A. K., Drexl, M., & Irnich, S. (2016). Branch-and-Price-and-Cut for a Service Network Design and Hub Location Problem. European Journal of Operational Research.
  • Saeed, N. (2013). Cooperation among freight forwarders: Mode choice and intermodal freight transport. Research in Transportation Economics, 42(1), 77-86.
  • Santos, B. F., Limbourg, S., & Carreira, J. S. (2015). The impact of transport policies on railroad intermodal freight competitiveness–The case of Belgium. Transportation Research Part D: Transport and Environment, 34, 230-244.
  • Sawadogo, M., & Anciaux, D. (2010, April). Reducing the environmental impacts of intermodal transportation: a multi-criteria analysis based on ELECTRE and AHP methods. In 3rd International Conference on Information Systems, Logistics and Supply Chain Creating value through green supply chains (p. 224).
  • Southworth, F., & Peterson, B. E. (2000). Intermodal and international freight network modeling. Transportation Research Part C: Emerging Technologies, 8(1), 147-166.
  • Verma, M., & Verter, V. (2010). A lead-time based approach for planning rail–truck intermodal transportation of dangerous goods. European Journal of Operational Research, 202(3), 696-706.
  • Verma, M., Verter, V., & Zufferey, N. (2012). A bi-objective model for planning and managing rail-truck intermodal transportation of hazardous materials. Transportation research part E: logistics and transportation review, 48(1), 132-149.
  • Verma, M., Verter, V., & Zufferey, N. (2013). A Meta-heuristic approach to rail-truck intermodal transportation of hazardous materials. In proceedings of international conference on advances in communication, network, and computing.
  • Wang, X., & Regan, A. C. (2002). Local truckload pickup and delivery with hard time window constraints. Transportation Research Part B: Methodological, 36(2), 97-112.
  • Yang, X., Low, J. M., & Tang, L. C. (2011). Analysis of intermodal freight from China to Indian Ocean: a goal programming approach. Journal of Transport Geography, 19(4), 515-527.
  • Zehendner, E., & Feillet, D. (2014). Benefits of a truck appointment system on the service quality of inland transport modes at a multimodal container terminal. European Journal of Operational Research, 235(2), 461-469.
  • Zhang, C., Liu, J., Wan, Y. W., Murty, K. G., & Linn, R. J. (2003). Storage space allocation in container terminals. Transportation Research Part B: Methodological, 37(10), 883-903.
  • Zhang, M., Janic, M., & Tavasszy, L. A. (2015). A freight transport optimization model for integrated network, service, and policy design. Transportation Research Part E: Logistics and Transportation Review, 77, 61-76.
  • Ziliaskopoulos, A., Wardell, W., 2000. An intermodal optimum path algorithm for multimodal networks with dynamic arc travel times and switching delays. European Journal of Operational Research, 125 (3), 486–502.

A LITERATURE REVIEW ON INTERMODAL TRANSPORTATION

Year 2017, Volume: 3 Issue: 1, 9 - 20, 30.06.2017
https://doi.org/10.17261/Pressacademia.2017.387

Abstract

As an important part of global trade, freight
transport has grown rapidly over the past two decades. Designing cost effective
and highly efficient transport networks is extremely important in freight
transport. The main modes of transport are air, rail, road and sea. Although
road transport still constitutes a significant part of freight transport,
intermodal transport is a preferred alternative for establishing a sustainable
transport system. Intermodal transport can be defined as the transport of goods
in the same transport (loading) unit using two or more modes of transport
together, and the handling of the goods rather than the goods themselves. The
use and development of intermodal transport have numerous economic, social and
environmental advantages. In this study, a detailed literature search is
presented by various classifications on intermodal freight transport problems;
suggestions for future work have been made. 

References

  • Arnold, P., Peeters, D., & Thomas, I. (2004). Modelling a rail/road intermodal transportation system. Transportation Research Part E: Logistics and Transportation Review, 40(3), 255-270.
  • Assadipour, G., Ke, G. Y., & Verma, M. (2015). Planning and managing intermodal transportation of hazardous materials with capacity selection and congestion. Transportation Research Part E: Logistics and Transportation Review, 76, 45-57.
  • Bauer, J., Bektaş, T., & Crainic, T. G. (2010). Minimizing greenhouse gas emissions in intermodal freight transport: an application to rail service design. Journal of the Operational Research Society, 61(3), 530-542.
  • Baykasoğlu, A., & Subulan, K. (2016). A multi-objective sustainable load planning model for intermodal transportation networks with a reallife application. Transportation Research Part E: Logistics and Transportation Review, 95, 207-247.
  • Bhattacharya, A., Kumar, S. A., Tiwari, M. K., & Talluri, S. (2014). An intermodal freight transport system for optimal supply chain logistics. Transportation Research Part C: Emerging Technologies, 38, 73-84.
  • Bierwirth, C., Kirschstein, T., & Meisel, F. (2012). On transport service selection in intermodal rail/road distribution networks. BuR-Business Research, 5(2), 198-219.
  • Bruns, F., & Knust, S. (2012). Optimized load planning of trains in intermodal transportation. OR spectrum, 34(3), 511-533.
  • Chang, C. C., & Lai, T. C. (2013). Carbon allowance allocation in the transportation industry. Energy policy, 63, 1091-1097.
  • Chang, T. S. (2008). Best routes selection in international intermodal networks. Computers & operations research, 35(9), 2877-2891.
  • Cho, J. H., Kim, H. S., & Choi, H. R. (2012). An intermodal transport network planning algorithm using dynamic programming—a case study: from Busan to Rotterdam in intermodal freight routing. Applied Intelligence, 36(3), 529-541.
  • Choong, S. T., Cole, M. H., & Kutanoglu, E. (2002). Empty container management for intermodal transportation networks. Transportation Research Part E: Logistics and Transportation Review, 38(6), 423-438.
  • Demir, E., Burgholzer, W., Hrušovský, M., Arıkan, E., Jammernegg, W., & Van Woensel, T. (2015). A green intermodal service network design problem with travel time uncertainty. Transportation Research Part B: Methodological.
  • Di Febbraro, A., Sacco, N., & Saeednia, M. (2016). An agent-based framework for cooperative planning of intermodal freight transport chains. Transportation Research Part C: Emerging Technologies, 64, 72-85.
  • Duan, X., & Heragu, S. (2015, January). Carbon Emission Tax Policy in an Intermodal Transportation Network. In IIE Annual Conference. Proceedings (p. 566). Institute of Industrial Engineers-Publisher.
  • García, J., Florez, J. E., Torralba, Á., Borrajo, D., López, C. L., García-Olaya, Á., & Sáenz, J. (2013). Combining linear programming and automated planning to solve intermodal transportation problems. European Journal of Operational Research, 227(1), 216-226.
  • Ghane-Ezabadi, M., & Vergara, H. A. (2016). Decomposition approach for integrated intermodal logistics network design. Transportation Research Part E: Logistics and Transportation Review, 89, 53-69.
  • Hanaoka, S., & Kunadhamraks, P. (2009). Multiple criteria and fuzzy based evaluation of logistics performance for intermodal transportation. Journal of Advanced Transportation, 43(2), 123.
  • Janic, M. (2007). Modelling the full costs of an intermodal and road freight transport network. Transportation Research Part D: Transport and Environment, 12(1), 33-44.
  • Kalasová, A., Kapusta, J., & Toman, P. (2016). A Model of Transatlantic Intermodal Freight Transportation Between the European Continent and the United States 1/Model transatlantskog intermodalnog prijevoza tereta izmeðu Europe i Sjedinjenih Americkih Drzava. Nase More, 63(1), 5.
  • Kalinina, M., Olsson, L., & Larsson, A. (2013). A Multi Objective Chance Constrained Programming Model for Intermodal Logistics with Uncertain Time. International Journal of Computer Science Issues, 10(6), 35-44.
  • Kayikci, Y. (2010). A conceptual model for intermodal freight logistics centre location decisions. Procedia-Social and Behavioral Sciences, 2(3), 6297-6311.
  • Li, L., Negenborn, R. R., & De Schutter, B. (2015). Intermodal freight transport planning–a receding horizon control approach. Transportation Research Part C: Emerging Technologies, 60, 77-95.
  • Lin, C. C., & Lin, S. W. (2016). Two-stage approach to the intermodal terminal location problem. Computers & Operations Research, 67, 113-119.
  • Macharis, C., Caris, A., Jourquin, B., & Pekin, E. (2011). A decision support framework for intermodal transport policy. European Transport Research Review, 3(4), 167-178.
  • Meisel, F., Kirschstein, T., & Bierwirth, C. (2013). Integrated production and intermodal transportation planning in large scale production– distribution-networks. Transportation Research Part E: Logistics and Transportation Review, 60, 62-78.
  • Meng, Q., & Wang, X. (2011). Intermodal hub-and-spoke network design: incorporating multiple stakeholders and multi-type containers. Transportation Research Part B: Methodological, 45(4), 724-742.
  • Morlok, E. K., & Spasovic, L. N. (1994). Redesigning rail-truck intermodal drayage operations for enhanced service and cost performance. In Journal of the Transportation Research Forum (Vol. 34, No. 1).
  • Parola, F., & Sciomachen, A. (2005). Intermodal container flows in a port system network:: Analysis of possible growths via simulation models. International journal of production economics, 97(1), 75-88.
  • Puettmann, C., & Stadtler, H. (2010). A collaborative planning approach for intermodal freight transportation. OR spectrum, 32(3), 809-830.
  • Qu, Y., Bektaş, T., & Bennell, J. (2016). Sustainability SI: multimode multicommodity network design model for intermodal freight transportation with transfer and emission costs. Networks and Spatial Economics, 16(1), 303-329.
  • Rajkovic, R., Zrnic, N., & Stakic, D. (2016). Application of mathematical model for container transport flow of goods: from Far east to Serbia. Tehnički vjesnik, 23(6), 1739-1746.
  • Regmi, M. B., & Hanaoka, S. (2012). Assessment of intermodal transport corridors: Cases from North-East and Central Asia. Research in Transportation Business & Management, 5, 27-37.
  • Resat, H. G., & Turkay, M. (2015). Design and operation of intermodal transportation network in the Marmara region of Turkey. Transportation Research Part E: Logistics and Transportation Review, 83, 16-33.
  • Rothenbächer, A. K., Drexl, M., & Irnich, S. (2016). Branch-and-Price-and-Cut for a Service Network Design and Hub Location Problem. European Journal of Operational Research.
  • Saeed, N. (2013). Cooperation among freight forwarders: Mode choice and intermodal freight transport. Research in Transportation Economics, 42(1), 77-86.
  • Santos, B. F., Limbourg, S., & Carreira, J. S. (2015). The impact of transport policies on railroad intermodal freight competitiveness–The case of Belgium. Transportation Research Part D: Transport and Environment, 34, 230-244.
  • Sawadogo, M., & Anciaux, D. (2010, April). Reducing the environmental impacts of intermodal transportation: a multi-criteria analysis based on ELECTRE and AHP methods. In 3rd International Conference on Information Systems, Logistics and Supply Chain Creating value through green supply chains (p. 224).
  • Southworth, F., & Peterson, B. E. (2000). Intermodal and international freight network modeling. Transportation Research Part C: Emerging Technologies, 8(1), 147-166.
  • Verma, M., & Verter, V. (2010). A lead-time based approach for planning rail–truck intermodal transportation of dangerous goods. European Journal of Operational Research, 202(3), 696-706.
  • Verma, M., Verter, V., & Zufferey, N. (2012). A bi-objective model for planning and managing rail-truck intermodal transportation of hazardous materials. Transportation research part E: logistics and transportation review, 48(1), 132-149.
  • Verma, M., Verter, V., & Zufferey, N. (2013). A Meta-heuristic approach to rail-truck intermodal transportation of hazardous materials. In proceedings of international conference on advances in communication, network, and computing.
  • Wang, X., & Regan, A. C. (2002). Local truckload pickup and delivery with hard time window constraints. Transportation Research Part B: Methodological, 36(2), 97-112.
  • Yang, X., Low, J. M., & Tang, L. C. (2011). Analysis of intermodal freight from China to Indian Ocean: a goal programming approach. Journal of Transport Geography, 19(4), 515-527.
  • Zehendner, E., & Feillet, D. (2014). Benefits of a truck appointment system on the service quality of inland transport modes at a multimodal container terminal. European Journal of Operational Research, 235(2), 461-469.
  • Zhang, C., Liu, J., Wan, Y. W., Murty, K. G., & Linn, R. J. (2003). Storage space allocation in container terminals. Transportation Research Part B: Methodological, 37(10), 883-903.
  • Zhang, M., Janic, M., & Tavasszy, L. A. (2015). A freight transport optimization model for integrated network, service, and policy design. Transportation Research Part E: Logistics and Transportation Review, 77, 61-76.
  • Ziliaskopoulos, A., Wardell, W., 2000. An intermodal optimum path algorithm for multimodal networks with dynamic arc travel times and switching delays. European Journal of Operational Research, 125 (3), 486–502.
There are 47 citations in total.

Details

Journal Section Articles
Authors

Gokhan Aldemir This is me

Tugce Beldek This is me

Publication Date June 30, 2017
Published in Issue Year 2017 Volume: 3 Issue: 1

Cite

APA Aldemir, G., & Beldek, T. (2017). A LITERATURE REVIEW ON INTERMODAL TRANSPORTATION. PressAcademia Procedia, 3(1), 9-20. https://doi.org/10.17261/Pressacademia.2017.387
AMA Aldemir G, Beldek T. A LITERATURE REVIEW ON INTERMODAL TRANSPORTATION. PAP. June 2017;3(1):9-20. doi:10.17261/Pressacademia.2017.387
Chicago Aldemir, Gokhan, and Tugce Beldek. “A LITERATURE REVIEW ON INTERMODAL TRANSPORTATION”. PressAcademia Procedia 3, no. 1 (June 2017): 9-20. https://doi.org/10.17261/Pressacademia.2017.387.
EndNote Aldemir G, Beldek T (June 1, 2017) A LITERATURE REVIEW ON INTERMODAL TRANSPORTATION. PressAcademia Procedia 3 1 9–20.
IEEE G. Aldemir and T. Beldek, “A LITERATURE REVIEW ON INTERMODAL TRANSPORTATION”, PAP, vol. 3, no. 1, pp. 9–20, 2017, doi: 10.17261/Pressacademia.2017.387.
ISNAD Aldemir, Gokhan - Beldek, Tugce. “A LITERATURE REVIEW ON INTERMODAL TRANSPORTATION”. PressAcademia Procedia 3/1 (June 2017), 9-20. https://doi.org/10.17261/Pressacademia.2017.387.
JAMA Aldemir G, Beldek T. A LITERATURE REVIEW ON INTERMODAL TRANSPORTATION. PAP. 2017;3:9–20.
MLA Aldemir, Gokhan and Tugce Beldek. “A LITERATURE REVIEW ON INTERMODAL TRANSPORTATION”. PressAcademia Procedia, vol. 3, no. 1, 2017, pp. 9-20, doi:10.17261/Pressacademia.2017.387.
Vancouver Aldemir G, Beldek T. A LITERATURE REVIEW ON INTERMODAL TRANSPORTATION. PAP. 2017;3(1):9-20.

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