مکان یابی پایگاه های اهدا در زنجیره تامین خون با لحاظ معیارهای زیست محیطی با استفاده از مدل ترکیبی ویکور و برنامه ریزی ریاضی )مطالعه موردی سازمان خون استان البرز
محورهای موضوعی : مدیریتمهیار کیانپور 1 , مسعود ربانی 2 , سید علی ترابی 3
1 - کارشناسی ارشد مهندسی صنایع، دانشکده مهندسی صنایع، پردیس دانشکدههای فنی، دانشگاه تهران، تهران، ایران.
2 - نویسنده مسثول، استاد تمام، دانشکده مهندسی صنایع، پردیس دانشکدههای فنی، دانشگاه تهران، تهران، ایران. آدرس پست
. mrabani@ut.ac.ir :
3 - استاد تمام، دانشکده مهندسی صنایع، پردیس دانشکدههای فنی، دانشگاه تهران، تهران، ایران.
کلید واژه: کلما ت کلیدی: پایگاه اهدای خون, معیارهای زیس تمحیطی, ویکور و برنامهریزی ریاضی,
چکیده مقاله :
چکیدهامروزه با توجه به نقش خاص هر یک از تسهیلات در زنجیره تامین خون، استقرار این مراکز در مکا نهایمناسب با رعایت معیارهای زیستمحیطی از اهمیت ویژ های برخوردار است. سازمان خون استان البرز، باافزایش جمعیت و گسترش شهرها، همواره به دنبال مکا نیابی مناسب جهت استقرار پایگاههای اهدا بوده استتا علاوه بر ارائه خدمت حداکثری به اهداکنندگان، بتوانند آسیبهای زیس تمحیطی را کاهش دهد. در اینمطالعه، برای مکا نیابی مناسب جهت استقرار پایگاههای اهدای خون، معیارهای زیس تمحیطی در نظ ر گرفتهشده است. هدف این مطالعه تعیین تعداد و محل مناسب قرارگیری پایگاههای اهدای خون در سطح شهر بااستفاده از روش ترکیبی ویکور و مدل برنام هریزی ریاضی است به گونهای که این پایگاهها بیشترین سطحخدم تدهی را داشته باشند .کلما ت کلیدی: پایگاه اهدای خون، معیارهای زیس تمحیطی، ویکور و برنامهریزی ریاضی.
AbstractNowadays with regards to the special role of blood supply chain facilities, theimportance of blood donation centers establishment with environmental standardscompliance is considerable. With the increase in population and urban sprawl,Alborz Blood Transfusion center has been looking for a suitable location toestablish blood donation centers in order to providing maximum service to donors,in addition to reduce environmental damage. In this study, to find the appropriatelocation for blood donation centers, environmental criteria have been considered.The purpose of this study was to determine the number and establishment of blooddonation centers using combined VIKOR and mathematical programmingapproach in order to blood donation centers have the highest level of service. Fromthe 12 existing regions, Only 6 candidate regions were selected to determine theappropriate location for the establishment of blood donation centers using theVIKOR method as a multi-criterion decision making approach. Also, by solvingthe proposed mathematical model, 4 regions were selected to locating a blooddonation centers that providing maximum service to donors in the regions.
منابع
-Basnet, R. B., Lamichhane, D., & Sharma, V. K. (2009). A study of blood requisition
and transfusion practice in surgery at Bir Hospital. Postgraduate Medical Journal of
NAMS, 9(2), 14-19.
- Beliën, J., & Forcé, H. (2012). Supply chain management of blood products: A literature
review. European Journal of Operational Research, 217(1), 1-16.
- Bhattacharya, U., Rao, J. R., & Tiwari, R. N. (1992). Fuzzy multi-criteria facility
location problem. Fuzzy Sets and Systems, 51(3), 277-287.
- Brodheim, E., & Prastacos, G. P. (1979). A regional blood management system with
prescheduled deliveries. Transfusion, 19(4), 455-462.
- Cetin, E. and Sarul, LS. (2009). “A blood bank location model: a multiobjective
approach.” Eur J Pure and Appl Math, Vol. 2, No.1, PP.112-124.
- Ciavarella, C., & Paterno, F. (2003, September). Design criteria for location-aware,
indoor, PDA applications. In International Conference on Mobile Human-Computer
Interaction (pp. 131-144). Springer Berlin Heidelberg.
- Demirel, T., Demirel, N. Ç., & Kahraman, C. (2010). Multi-criteria warehouse location
selection using Choquet integral. Expert Systems with Applications, 37(5), 3943-3952.
- Farahani, R. Z., SteadieSeifi, M., & Asgari, N. (2010). Multiple criteria facility location
problems: A survey. Applied Mathematical Modelling, 34(7), 1689-1709.
- Haijema, R., van Dijk, N., van der Wal, J., & Sibinga, C. S. (2009). Blood platelet
production with breaks: optimization by SDP and simulation.International Journal of
Production Economics, 121(2), 464-473.
- Handfield, R., Walton, S. V., Sroufe, R., & Melnyk, S. A. (2002). Applying
environmental criteria to supplier assessment: A study in the application of the Analytical
Hierarchy Process. European Journal of Operational Research, 141(1), 70-87.
- Hemmelmayr, V., Doerner, K. F., Hartl, R. F., & Savelsbergh, M. W. (2009). Delivery
strategies for blood products supplies. OR spectrum, 31(4), 707-725
- Hemmelmayr, V., Doerner, K. F., Hartl, R. F., & Savelsbergh, M. W. (2010). Vendor
managed inventory for environments with stochastic product usage.European Journal of
Operational Research, 202(3), 686-695.
- Jacobs, D. A., Silan, M. N., & Clemson, B. A. (1996). An analysis of alternative locations
and service areas of American Red Cross blood facilities. Interfaces, 26(3), 40-50.
- Kendall, K. E. (1980). Multiple objective planning for regional blood centers.Long range
planning, 13(4), 98-104.
فصلنامه مطالعات کمی در مدیریت............................................................ / 141
- Kuruppu, K. K. (2010). Management of blood system in disasters. Biologicals, 38(1),
87-90.
- LaGrega M.D., Buckingham P.L., and Evans J.C., (2002), Hazardous waste
Management. McGraw-Hill,Inc. New York.
- Lira-Barragán, L. F., Ponce-Ortega, J. M., Serna-González, M., & El-Halwagi, M. M.
(2010). An MINLP model for the optimal location of a new industrial plant with
simultaneous consideration of economic and environmental criteria. Industrial &
Engineering Chemistry Research, 50(2), 953-964.
- Liou, J. J., Tsai, C. Y., Lin, R. H., & Tzeng, G. H. (2011). A modified VIKOR multiplecriteria
decision method for improving domestic airlines service quality. Journal of Air
Transport Management, 17(2), 57-61.
- Nagurney, A., Masoumi, A. H., & Yu, M. (2012). Supply chain network operations
management of a blood banking system with cost and risk minimization. Computational
Management Science, 9(2), 205-231.
- Nahmias, S. (1982). “Perishable inventory theory: a review." Operation Research., Vol.
30, NN. 4, NN. 680-708.
- Rogers, M., & Bruen, M. (1998). Choosing realistic values of indifference, preference
and veto thresholds for use with environmental criteria within ELECTRE. European
Journal of Operational Research, 107(3), 542-551.
- Rojanamon, P., Chaisomphob, T., & Bureekul, T. (2009). Application of geographical
information system to site selection of small run-of-river hydropower project by
considering engineering/economic/environmental criteria and social impact. Renewable
and Sustainable Energy Reviews, 13(9), 2336-2348.
- Sahin, G., Sural, H., Meral, S. (2007). Locational analysis for regionalization of Turkish
Red Crescent blood services. Computers and Operations Research 34, 692-704.
- Van Dijk, N., Haijema, R., Van Der Wal, J., & Sibinga, C. S. (2009). Blood platelet
production: a novel approach for practical optimization. Transfusion,49(3), 411-420.
- Wentz, A., C., (2001), Hazardous waste management. 2nd edition, McGraw-HILL, INC.
- Whitaker, B.I., Green, J., King, M.R., Leibeg, L.L., Mathew, S.M., Schlumpf, K.S.,
Schreiber, G.B., (2007). The 2007 national blood collection and utilization survey report.
The United States Department of Health and Human Services.
- Yang, Y. P. O., Shieh, H. M., & Tzeng, G. H. (2013). A VIKOR technique based on
DEMATEL and ANP for information security risk control assessment. Information
Sciences, 232, 482-500.
منابع
-Basnet, R. B., Lamichhane, D., & Sharma, V. K. (2009). A study of blood requisition
and transfusion practice in surgery at Bir Hospital. Postgraduate Medical Journal of
NAMS, 9(2), 14-19.
- Beliën, J., & Forcé, H. (2012). Supply chain management of blood products: A literature
review. European Journal of Operational Research, 217(1), 1-16.
- Bhattacharya, U., Rao, J. R., & Tiwari, R. N. (1992). Fuzzy multi-criteria facility
location problem. Fuzzy Sets and Systems, 51(3), 277-287.
- Brodheim, E., & Prastacos, G. P. (1979). A regional blood management system with
prescheduled deliveries. Transfusion, 19(4), 455-462.
- Cetin, E. and Sarul, LS. (2009). “A blood bank location model: a multiobjective
approach.” Eur J Pure and Appl Math, Vol. 2, No.1, PP.112-124.
- Ciavarella, C., & Paterno, F. (2003, September). Design criteria for location-aware,
indoor, PDA applications. In International Conference on Mobile Human-Computer
Interaction (pp. 131-144). Springer Berlin Heidelberg.
- Demirel, T., Demirel, N. Ç., & Kahraman, C. (2010). Multi-criteria warehouse location
selection using Choquet integral. Expert Systems with Applications, 37(5), 3943-3952.
- Farahani, R. Z., SteadieSeifi, M., & Asgari, N. (2010). Multiple criteria facility location
problems: A survey. Applied Mathematical Modelling, 34(7), 1689-1709.
- Haijema, R., van Dijk, N., van der Wal, J., & Sibinga, C. S. (2009). Blood platelet
production with breaks: optimization by SDP and simulation.International Journal of
Production Economics, 121(2), 464-473.
- Handfield, R., Walton, S. V., Sroufe, R., & Melnyk, S. A. (2002). Applying
environmental criteria to supplier assessment: A study in the application of the Analytical
Hierarchy Process. European Journal of Operational Research, 141(1), 70-87.
- Hemmelmayr, V., Doerner, K. F., Hartl, R. F., & Savelsbergh, M. W. (2009). Delivery
strategies for blood products supplies. OR spectrum, 31(4), 707-725
- Hemmelmayr, V., Doerner, K. F., Hartl, R. F., & Savelsbergh, M. W. (2010). Vendor
managed inventory for environments with stochastic product usage.European Journal of
Operational Research, 202(3), 686-695.
- Jacobs, D. A., Silan, M. N., & Clemson, B. A. (1996). An analysis of alternative locations
and service areas of American Red Cross blood facilities. Interfaces, 26(3), 40-50.
- Kendall, K. E. (1980). Multiple objective planning for regional blood centers.Long range
planning, 13(4), 98-104.
فصلنامه مطالعات کمی در مدیریت............................................................ / 141
- Kuruppu, K. K. (2010). Management of blood system in disasters. Biologicals, 38(1),
87-90.
- LaGrega M.D., Buckingham P.L., and Evans J.C., (2002), Hazardous waste
Management. McGraw-Hill,Inc. New York.
- Lira-Barragán, L. F., Ponce-Ortega, J. M., Serna-González, M., & El-Halwagi, M. M.
(2010). An MINLP model for the optimal location of a new industrial plant with
simultaneous consideration of economic and environmental criteria. Industrial &
Engineering Chemistry Research, 50(2), 953-964.
- Liou, J. J., Tsai, C. Y., Lin, R. H., & Tzeng, G. H. (2011). A modified VIKOR multiplecriteria
decision method for improving domestic airlines service quality. Journal of Air
Transport Management, 17(2), 57-61.
- Nagurney, A., Masoumi, A. H., & Yu, M. (2012). Supply chain network operations
management of a blood banking system with cost and risk minimization. Computational
Management Science, 9(2), 205-231.
- Nahmias, S. (1982). “Perishable inventory theory: a review." Operation Research., Vol.
30, NN. 4, NN. 680-708.
- Rogers, M., & Bruen, M. (1998). Choosing realistic values of indifference, preference
and veto thresholds for use with environmental criteria within ELECTRE. European
Journal of Operational Research, 107(3), 542-551.
- Rojanamon, P., Chaisomphob, T., & Bureekul, T. (2009). Application of geographical
information system to site selection of small run-of-river hydropower project by
considering engineering/economic/environmental criteria and social impact. Renewable
and Sustainable Energy Reviews, 13(9), 2336-2348.
- Sahin, G., Sural, H., Meral, S. (2007). Locational analysis for regionalization of Turkish
Red Crescent blood services. Computers and Operations Research 34, 692-704.
- Van Dijk, N., Haijema, R., Van Der Wal, J., & Sibinga, C. S. (2009). Blood platelet
production: a novel approach for practical optimization. Transfusion,49(3), 411-420.
- Wentz, A., C., (2001), Hazardous waste management. 2nd edition, McGraw-HILL, INC.
- Whitaker, B.I., Green, J., King, M.R., Leibeg, L.L., Mathew, S.M., Schlumpf, K.S.,
Schreiber, G.B., (2007). The 2007 national blood collection and utilization survey report.
The United States Department of Health and Human Services.
- Yang, Y. P. O., Shieh, H. M., & Tzeng, G. H. (2013). A VIKOR technique based on
DEMATEL and ANP for information security risk control assessment. Information
Sciences, 232, 482-500.