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ÇOK MODLU TAŞIMACILIK SİSTEMLERİNİN OPTİMİZASYONUNA YÖNELİK BİR UYGULAMA

Year 2020, Volume: 29 Issue: 1, 256 - 269, 20.04.2020
https://doi.org/10.35379/cusosbil.678728

Abstract

Hizmet faaliyetlerinin büyük bir kısmını oluşturan lojistik ve taşımacılık faaliyetleri, işletmelerin rekabet gücü ve müşterilerin memnuniyeti açısından büyük bir öneme sahiptir. Dağıtım ağlarında karşılaşılan problemler ve gün geçtikçe artan şirketler arası rekabet lojistik sistemlerini daha karmaşık hale getirmiştir. Bu karmaşık sistem içerisinde müşteri memnuniyetinin gerçekleştirilmesi ve rekabet üstünlüğünün sağlanabilmesi için belirli performans kriterlerinin sağlanması gerekmektedir. Söz konusu performans kriterlerinin sağlanabilmesi için lojistik kaynakların ve zamanın en uygun şekilde kullanılması gerekir. Bu çalışmada bir lojistik firmasının yerel depo ile başlayıp talep noktaları ile son bulan, dört aşamadan oluşan üç farklı taşıma ağı senaryosu çözümlenmeye çalışılmıştır. Taşıma ağının farklı aşamalarında kara yolu, deniz yolu ve demir yolu taşıma modları kullanılmıştır. Taşıma ağının farklı aşamalarında kullanılan taşıma modları ve farklı aşamalardaki alternatif lokasyonların seçimi için bir doğrusal programlama modeli oluşturulup toplam taşıma süresi minimize edilmeye çalışılmış, tedarik ve talep noktaları arasındaki her aşamada taşınan yük optimize edilmiştir.

References

  • Alattar, M.A., (2003). Multiobjective optimization for ıntermodal container freight terminals: mathematical modeling of transport and operations. University of Southern California.
  • Bazzazi, M., Safaei, N., Javadian, N. (2009). A genetic algorithm to solve the storage space allocation problem in a container terminal. Computers & Industrial Engineering, 56, 44–52
  • Bish, E.K., Chen, F.Y., Leong, Y.T., Nelson, B.L., Cheong, J.W., Levi, D.S. (2005). Dispatching vehicles in a mega container terminal. OR Spectrum 27, 491-506.
  • Bruzzone, A. and Signorille, R. (1998). Simulation and genetic algorithms for ship planning and shipyard layout. Simulation, No: 71 (2), 74-83.
  • Castilho, B. D. Daganzo, C. F. (1993). Handling strategies for import containers at marine terminals. Transportation Research, 27 (2), 151-166.
  • Chen, L., Bostel, N., Dejax, P., Cai, J., Xi, L. (2007). A tabu search algorithm for the integrated scheduling problem of container handling systems in a maritime terminal. European Journal of Operational Research, Volume 181, Issue 1, 40-58.
  • CSCMP (2020). https://cscmp.org/ (Ziyaret Tarihi: 20.01.2020)
  • Guo, X., Huang, S. Y., Hsu, W. J., Low, M. H. Y. (2011). Dynamic yard crane dispatching in container terminals with predicted vehicle arrival information. Advanced Engineering Informatics, 25, 472–484.
  • Kim, K.H., Bae, J.W. (2004). A look-ahead dispatching method for automated guided vehicles in automated port container terminals. Transportation Science 38, 224–234.
  • Lehmann, M., Grunow, M., Günther, H.O. (2006). Deadlock handling for real-time control of AGVs at automated container terminals. OR Spectrum 28, 631-657.
  • Newman, A.M., Araiyano, C., (2000). Scheduling direct and indirect trains and containers in an intermodal setting. Transportation Science, 34(3), 256–270.
  • Ng, W. C., Mak, K. L. (2005). Yard crane scheduling in port container terminals. Applied Mathematical Modelling. 29, 263–276
  • Wilson, I. D., Roach, P. A., Ware, J. A. (2001). Container stowage pre-planning: using search to generate solutions a case study. Elsevier, Knowledge Based Systems, 14, 137-145.
  • Zhang, C., Wan, Y., Liu, J., Linn, R. J. (2002). Dynamic crane deployment in container storage yards, Transportation Research Part B, 36, 537–555.
  • Zhang C., Liu J., Wan Y., Murty K. G., Linn R. J. (2003). Storage space allocation in container terminals. Transportation Research Part B: Methodological, 37(10), 883- 903.
Year 2020, Volume: 29 Issue: 1, 256 - 269, 20.04.2020
https://doi.org/10.35379/cusosbil.678728

Abstract

References

  • Alattar, M.A., (2003). Multiobjective optimization for ıntermodal container freight terminals: mathematical modeling of transport and operations. University of Southern California.
  • Bazzazi, M., Safaei, N., Javadian, N. (2009). A genetic algorithm to solve the storage space allocation problem in a container terminal. Computers & Industrial Engineering, 56, 44–52
  • Bish, E.K., Chen, F.Y., Leong, Y.T., Nelson, B.L., Cheong, J.W., Levi, D.S. (2005). Dispatching vehicles in a mega container terminal. OR Spectrum 27, 491-506.
  • Bruzzone, A. and Signorille, R. (1998). Simulation and genetic algorithms for ship planning and shipyard layout. Simulation, No: 71 (2), 74-83.
  • Castilho, B. D. Daganzo, C. F. (1993). Handling strategies for import containers at marine terminals. Transportation Research, 27 (2), 151-166.
  • Chen, L., Bostel, N., Dejax, P., Cai, J., Xi, L. (2007). A tabu search algorithm for the integrated scheduling problem of container handling systems in a maritime terminal. European Journal of Operational Research, Volume 181, Issue 1, 40-58.
  • CSCMP (2020). https://cscmp.org/ (Ziyaret Tarihi: 20.01.2020)
  • Guo, X., Huang, S. Y., Hsu, W. J., Low, M. H. Y. (2011). Dynamic yard crane dispatching in container terminals with predicted vehicle arrival information. Advanced Engineering Informatics, 25, 472–484.
  • Kim, K.H., Bae, J.W. (2004). A look-ahead dispatching method for automated guided vehicles in automated port container terminals. Transportation Science 38, 224–234.
  • Lehmann, M., Grunow, M., Günther, H.O. (2006). Deadlock handling for real-time control of AGVs at automated container terminals. OR Spectrum 28, 631-657.
  • Newman, A.M., Araiyano, C., (2000). Scheduling direct and indirect trains and containers in an intermodal setting. Transportation Science, 34(3), 256–270.
  • Ng, W. C., Mak, K. L. (2005). Yard crane scheduling in port container terminals. Applied Mathematical Modelling. 29, 263–276
  • Wilson, I. D., Roach, P. A., Ware, J. A. (2001). Container stowage pre-planning: using search to generate solutions a case study. Elsevier, Knowledge Based Systems, 14, 137-145.
  • Zhang, C., Wan, Y., Liu, J., Linn, R. J. (2002). Dynamic crane deployment in container storage yards, Transportation Research Part B, 36, 537–555.
  • Zhang C., Liu J., Wan Y., Murty K. G., Linn R. J. (2003). Storage space allocation in container terminals. Transportation Research Part B: Methodological, 37(10), 883- 903.
There are 15 citations in total.

Details

Primary Language Turkish
Journal Section Articles
Authors

Sevgi Eşiyok 0000-0003-0208-6242

Mert Demircioğlu 0000-0002-2287-2067

Publication Date April 20, 2020
Submission Date January 22, 2020
Published in Issue Year 2020 Volume: 29 Issue: 1

Cite

APA Eşiyok, S., & Demircioğlu, M. (2020). ÇOK MODLU TAŞIMACILIK SİSTEMLERİNİN OPTİMİZASYONUNA YÖNELİK BİR UYGULAMA. Çukurova Üniversitesi Sosyal Bilimler Enstitüsü Dergisi, 29(1), 256-269. https://doi.org/10.35379/cusosbil.678728