Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2019, Cilt: 48 Sayı: 2, 552 - 563, 01.04.2019

Öz

Kaynakça

  • Abdi, M. R. Fuzzy multi-criteria decision model for evaluating reconfigurable machines, International Journal of Production Economics 117 (1), 1, 2009.
  • Akman, G. and Baynal, K. Logistics service provider selection through an integrated fuzzy multicriteria decision making approach, Journal of Industrial Engineering 1, 2014.
  • Cakir, E., Tozan, H. and Vayvay, O. A method for selecting third party logistic service provider using fuzzy AHP, Journal of Naval Science and Engineering 5 (3), 38, 2009.
  • Chen, S., Liu, J., Wang, H. and Augusto, J. C. Ordering based decision makinga survey, Information Fusion 14 (4), 521-531, 2013.
  • Christopher, M. Logistics & supply chain management, Pearson UK, 2016.
  • Dornier, P. P., Ernst, R., Fender, M. and Kouvelis, P. Global operations and logistics: Text and cases, John Wiley & Sons, 2008.
  • Girvica, O. Optimization of the Supply Chain Process for the Logistic Centre, Transport and Telecommunication TSI journal 11 (2), 12, 2010.
  • Gursel, G. Healthcare, uncertainty, and fuzzy logic, Digital Medicine 2 (3), 101, 2016.
  • Jae, M. and Moon, J. H. Use of a fuzzy decision-making method in evaluating severe accident management strategies, Annals of Nuclear Energy 29 (13), 1597-1606, 2002.
  • Kiker, G. A., Bridges, T. S., Varghese, A., Seager, T. P. and Linkov, I. Application of multicriteria decision analysis in environmental decision making, Integrated environmental assessment and management 1 (2), 95-108, 2005.
  • Lopez Gonzalez, E., Rodriguez-Fernandez, M. A. and Mendana Cuervo, C. The logistic decision making in management accounting with genetic algoritms and fuzzy sets, Mathware & soft computing 7 (1), 2-3, 2000.
  • Mentzer, J. T., Stank, T. P. and Esper, T. L. Supply chain management and its relationship to logistics, marketing, production, and operations management, Journal of Business Logistics 29 (1), 31-46, 2008.
  • Ahlstrand, B., Lampel, J. and Mintzberg, H. SStrategy Safari: A guided tour through the wilds of strategic management, Simon and Schuster, 2001.
  • Momeni, M., Fathi, M. R., Zarchi, M. K. and Azizollahi, S. A Fuzzy TOPSIS-based approach to maintenance strategy selection: A case study, Middle-East Journal of Scientific Research 8 (3), 699-706, 2011.
  • Monghasemi, S., Nikoo, M. R., Fasaee, M. A. K. and Adamowski, J. A novel multi criteria decision making model for optimizing timecostquality trade-off problems in construction projects, Expert systems with applications 42 (6), 3089-3104, 2015.
  • Mudambi, R. Location, control and innovation in knowledge-intensive industries, Journal of economic Geography 8 (5), 699-725, 2008.
  • Oliva, R. and Kallenberg, R. Managing the transition from products to services, International journal of service industry management 14 (2), 160-172, 2003.
  • Rushton, A., Croucher, P. and Baker, P. The handbook of logistics and distribution management: Understanding the supply chain, Kogan Page Publishers, 2014.
  • Silva, C. A., Sousa, J. M. C. and Runkler, T. A. Runkler. Optimization of logistic systems using fuzzy weighted aggregation, Fuzzy Sets and Systems 158 (17), 1947-1960, 2007.
  • Sun, C., Xiang, Y., Jiang, S. and Che, Q. A supply chain risk evaluation method based on fuzzy TOPSIS, International Journal of Safety and Security Engineering 5 (2), 150-161, 2015.
  • Sharma, S. and Balan, S. An integrative supplier selection model using Taguchi loss function, TOPSIS and multi criteria goal programming, Journal of Intelligent Manufacturing 24 (6), 1123-1130, 2013.
  • Tseng, Y., Yue, W. L. and Taylor, M. A. P. The role of transportation in logistics chain, Eastern Asia Society for Transportation Studies 5 (1),1660, 2005.
  • Velasquez, M. and Hester, P. T. An analysis of multi-criteria decision making methods, International Journal of Operations Research 10 (2), 56-66, 2013.
  • Várlaki, P. and Vadvári, T. Queuing Models and Subspace Identification in Logistics, Acta Technica Jaurinensis 8 (1), 63-76, 2015.
  • Wang, H. B. and Wang, Z.W. Study on the method and procedure of logistics system modeling and simulation, In Proceedings of the 2nd International Conference on Science and Social Research, 776-780, 2013.

Modelling the logistic processes using fuzzy decision approach

Yıl 2019, Cilt: 48 Sayı: 2, 552 - 563, 01.04.2019

Öz

Logistic processes deal with the information about producing and distributing goods and services from one place to another to fulfill the customer requirements. Every kind of business requires the proper functioning of logistic processes for the success of company or organization. In retail businesses, facility location for logistic processes serves as a backbone and the success or a failure of the company depends upon the geographical location of the company. It is a multiple criteria decision making problem involves multiple criteria to analyze the proper location of a company. In this research work, at first, we developed a multi criteria based structural model in retail facility location selection based on logistic processes. Then by using fuzzy modelling technique, the criteria are converted into triangular fuzzy numbers. We have adopted the technique of order preference similarity to ideal solutions for finding the best alternative. We have also applied the sensitivity analysis on the suggested modelling technique and found the same alternative as best with high degree of certainty which confirms the reliability of the proposed modelling technique.

Kaynakça

  • Abdi, M. R. Fuzzy multi-criteria decision model for evaluating reconfigurable machines, International Journal of Production Economics 117 (1), 1, 2009.
  • Akman, G. and Baynal, K. Logistics service provider selection through an integrated fuzzy multicriteria decision making approach, Journal of Industrial Engineering 1, 2014.
  • Cakir, E., Tozan, H. and Vayvay, O. A method for selecting third party logistic service provider using fuzzy AHP, Journal of Naval Science and Engineering 5 (3), 38, 2009.
  • Chen, S., Liu, J., Wang, H. and Augusto, J. C. Ordering based decision makinga survey, Information Fusion 14 (4), 521-531, 2013.
  • Christopher, M. Logistics & supply chain management, Pearson UK, 2016.
  • Dornier, P. P., Ernst, R., Fender, M. and Kouvelis, P. Global operations and logistics: Text and cases, John Wiley & Sons, 2008.
  • Girvica, O. Optimization of the Supply Chain Process for the Logistic Centre, Transport and Telecommunication TSI journal 11 (2), 12, 2010.
  • Gursel, G. Healthcare, uncertainty, and fuzzy logic, Digital Medicine 2 (3), 101, 2016.
  • Jae, M. and Moon, J. H. Use of a fuzzy decision-making method in evaluating severe accident management strategies, Annals of Nuclear Energy 29 (13), 1597-1606, 2002.
  • Kiker, G. A., Bridges, T. S., Varghese, A., Seager, T. P. and Linkov, I. Application of multicriteria decision analysis in environmental decision making, Integrated environmental assessment and management 1 (2), 95-108, 2005.
  • Lopez Gonzalez, E., Rodriguez-Fernandez, M. A. and Mendana Cuervo, C. The logistic decision making in management accounting with genetic algoritms and fuzzy sets, Mathware & soft computing 7 (1), 2-3, 2000.
  • Mentzer, J. T., Stank, T. P. and Esper, T. L. Supply chain management and its relationship to logistics, marketing, production, and operations management, Journal of Business Logistics 29 (1), 31-46, 2008.
  • Ahlstrand, B., Lampel, J. and Mintzberg, H. SStrategy Safari: A guided tour through the wilds of strategic management, Simon and Schuster, 2001.
  • Momeni, M., Fathi, M. R., Zarchi, M. K. and Azizollahi, S. A Fuzzy TOPSIS-based approach to maintenance strategy selection: A case study, Middle-East Journal of Scientific Research 8 (3), 699-706, 2011.
  • Monghasemi, S., Nikoo, M. R., Fasaee, M. A. K. and Adamowski, J. A novel multi criteria decision making model for optimizing timecostquality trade-off problems in construction projects, Expert systems with applications 42 (6), 3089-3104, 2015.
  • Mudambi, R. Location, control and innovation in knowledge-intensive industries, Journal of economic Geography 8 (5), 699-725, 2008.
  • Oliva, R. and Kallenberg, R. Managing the transition from products to services, International journal of service industry management 14 (2), 160-172, 2003.
  • Rushton, A., Croucher, P. and Baker, P. The handbook of logistics and distribution management: Understanding the supply chain, Kogan Page Publishers, 2014.
  • Silva, C. A., Sousa, J. M. C. and Runkler, T. A. Runkler. Optimization of logistic systems using fuzzy weighted aggregation, Fuzzy Sets and Systems 158 (17), 1947-1960, 2007.
  • Sun, C., Xiang, Y., Jiang, S. and Che, Q. A supply chain risk evaluation method based on fuzzy TOPSIS, International Journal of Safety and Security Engineering 5 (2), 150-161, 2015.
  • Sharma, S. and Balan, S. An integrative supplier selection model using Taguchi loss function, TOPSIS and multi criteria goal programming, Journal of Intelligent Manufacturing 24 (6), 1123-1130, 2013.
  • Tseng, Y., Yue, W. L. and Taylor, M. A. P. The role of transportation in logistics chain, Eastern Asia Society for Transportation Studies 5 (1),1660, 2005.
  • Velasquez, M. and Hester, P. T. An analysis of multi-criteria decision making methods, International Journal of Operations Research 10 (2), 56-66, 2013.
  • Várlaki, P. and Vadvári, T. Queuing Models and Subspace Identification in Logistics, Acta Technica Jaurinensis 8 (1), 63-76, 2015.
  • Wang, H. B. and Wang, Z.W. Study on the method and procedure of logistics system modeling and simulation, In Proceedings of the 2nd International Conference on Science and Social Research, 776-780, 2013.
Toplam 25 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular İstatistik
Bölüm İstatistik
Yazarlar

Saima Mustafa 0000-0002-0584-1445

İshrat Fatimah Bu kişi benim 0000-0003-2374-016X

Young Bae Jun 0000-0002-0181-8969

Yayımlanma Tarihi 1 Nisan 2019
Yayımlandığı Sayı Yıl 2019 Cilt: 48 Sayı: 2

Kaynak Göster

APA Mustafa, S., Fatimah, İ., & Jun, Y. . B. (2019). Modelling the logistic processes using fuzzy decision approach. Hacettepe Journal of Mathematics and Statistics, 48(2), 552-563.
AMA Mustafa S, Fatimah İ, Jun YB. Modelling the logistic processes using fuzzy decision approach. Hacettepe Journal of Mathematics and Statistics. Nisan 2019;48(2):552-563.
Chicago Mustafa, Saima, İshrat Fatimah, ve Young Bae Jun. “Modelling the Logistic Processes Using Fuzzy Decision Approach”. Hacettepe Journal of Mathematics and Statistics 48, sy. 2 (Nisan 2019): 552-63.
EndNote Mustafa S, Fatimah İ, Jun YB (01 Nisan 2019) Modelling the logistic processes using fuzzy decision approach. Hacettepe Journal of Mathematics and Statistics 48 2 552–563.
IEEE S. Mustafa, İ. Fatimah, ve Y. . B. Jun, “Modelling the logistic processes using fuzzy decision approach”, Hacettepe Journal of Mathematics and Statistics, c. 48, sy. 2, ss. 552–563, 2019.
ISNAD Mustafa, Saima vd. “Modelling the Logistic Processes Using Fuzzy Decision Approach”. Hacettepe Journal of Mathematics and Statistics 48/2 (Nisan 2019), 552-563.
JAMA Mustafa S, Fatimah İ, Jun YB. Modelling the logistic processes using fuzzy decision approach. Hacettepe Journal of Mathematics and Statistics. 2019;48:552–563.
MLA Mustafa, Saima vd. “Modelling the Logistic Processes Using Fuzzy Decision Approach”. Hacettepe Journal of Mathematics and Statistics, c. 48, sy. 2, 2019, ss. 552-63.
Vancouver Mustafa S, Fatimah İ, Jun YB. Modelling the logistic processes using fuzzy decision approach. Hacettepe Journal of Mathematics and Statistics. 2019;48(2):552-63.