How to cite this paper
Bairagi, B., Dey, B & Sarkar, B. (2013). Incremental analysis for the performance evaluation of material handling equipment: A holistic approach.Uncertain Supply Chain Management, 1(2), 77-86.
Refrences
Atmani, A., & Dutta, S. P. (1996). Product design and materials handling system selection—A concurrent engineering approach. International Journal of Industrial Engineering-Theory, Applications and Practice, 3, 40–50.
Bernhard, R. H., & Canada, J. R. (1990). Some problems in using benefit/cost ratios with the analytic hierarchy process. The Engineering Economist, 36 (1), 56–65.
Bhattacharya, A., Sarkar, B., & Mukherjee, S. K. (2002). Material handling equipment selection under multi criteria decision making (MCDM) environment. Industrial Engineering Journal, 31(6), 17-25.
Castillo, I., & Peters, B. A. (2002). Unit load and material-handling considerations in facility layout design. International Journal of Production Research, 40, 2955–2989.
Chittratanawat, S., & Noble, J. S. (1999). An integrated approach for facility layout, P/D location and material handling system design. International Journal of Production Research, 37, 683–706.
Dey, B., Bairagi, B., Sarkar, B., & Sanyal, S. (2012). MOORA based fuzzy multi-criteria decision making approach for supply chain strategy selection. International Journal of Industrial Engineering Computations, 3, 649–662.
Fulford, P., Jessena, S., Harris, C., & Boucher, D. (2007). Sample acquisition, processing and handling systems for future Mars missions. Acta Astronautica, 61, 1061 – 1065.
Golam, K., & Hasin, M. A. A. (2012). Framework for benchmarking online retailing performance using fuzzy AHP and TOPSIS method. International Journal of Industrial Engineering Computations, 3(4), 561-576.
Goyal, S., & Grover, S. (2012). A comprehensive bibliography on effectiveness measurement of manufacturing systems. International Journal of Industrial Engineering Computations, 3, 587–606.
Gupta, T. & Dutta, S. P. (1994). Analyzing materials handling needs in concurrent/ simultaneous engineering. International Journal of Operations and Production Management, 14, 68–82.
Shih, H. S. (2008). Incremental analysis for MCDM with an application to group TOPSIS. European Journal of Operational Research, 186(2), 720-734.
Hwang, C. L., & Yoon, K. (1981). Multiple attribute decision making methods and applications. New York: Springer-Verlag.
Karande, P. & Chakraborty, S. (2013). Using MACBETH method for supplier selection in manufacturing environment. International Journal of Industrial Engineering Computations, 4, 259–272.
Lashkari, R. S., Boparai, R. & Paulo, J. (2004). Towards an integrated model of operation allocation and materials handling selection in cellular manufacturing system. International Journal of Production Economics, 87(2), 115–139.
Paulo, J., Lashkari, R. S., & Dutta, S. P. (2002). Operation allocation and materials-handling system selection in a flexible manufacturing system: a sequential modeling approach. International Journal of Production Research, 40, 7–35.
Raman, D., Nagalingam, S. V., Gurd, B. W., & Lin, G. C. I. (2009). Quantity of material handling equipment—A queuing theory based approach. Robotics and Computer-Integrated Manufacturing, 25, 348–357.
Rembold, B. F., & Tanchoco, J. M. A. (1994). Design justification of material handling systems. In: Tanchoco, J.M.A. (Ed.). Material Flow Systems in Manufacturing. Chapman & Hall, UK, 54–72.
Ribeiro, J. F. F., & Pradin, B. (1993). A methodology for cellular manufacturing design. International Journal of Production Research, 31, 235–250.
Saaty, T. L. (1980). The Analytic Hierarchy Process. McGraw-Hill, NY.
Sharma, S. C. (1999). Production Management. Khanna Publishers.
Sujono, S., & Lashkari, R. S. (2007). A multi-objective model of operation allocation and material handling system selection in FMS design. International Journal of Production Economics, 105, 116–133.
Sule, D.R. (199). Manufacturing Facilities: Location, Planning, and Design. PWS, Boston.
Bernhard, R. H., & Canada, J. R. (1990). Some problems in using benefit/cost ratios with the analytic hierarchy process. The Engineering Economist, 36 (1), 56–65.
Bhattacharya, A., Sarkar, B., & Mukherjee, S. K. (2002). Material handling equipment selection under multi criteria decision making (MCDM) environment. Industrial Engineering Journal, 31(6), 17-25.
Castillo, I., & Peters, B. A. (2002). Unit load and material-handling considerations in facility layout design. International Journal of Production Research, 40, 2955–2989.
Chittratanawat, S., & Noble, J. S. (1999). An integrated approach for facility layout, P/D location and material handling system design. International Journal of Production Research, 37, 683–706.
Dey, B., Bairagi, B., Sarkar, B., & Sanyal, S. (2012). MOORA based fuzzy multi-criteria decision making approach for supply chain strategy selection. International Journal of Industrial Engineering Computations, 3, 649–662.
Fulford, P., Jessena, S., Harris, C., & Boucher, D. (2007). Sample acquisition, processing and handling systems for future Mars missions. Acta Astronautica, 61, 1061 – 1065.
Golam, K., & Hasin, M. A. A. (2012). Framework for benchmarking online retailing performance using fuzzy AHP and TOPSIS method. International Journal of Industrial Engineering Computations, 3(4), 561-576.
Goyal, S., & Grover, S. (2012). A comprehensive bibliography on effectiveness measurement of manufacturing systems. International Journal of Industrial Engineering Computations, 3, 587–606.
Gupta, T. & Dutta, S. P. (1994). Analyzing materials handling needs in concurrent/ simultaneous engineering. International Journal of Operations and Production Management, 14, 68–82.
Shih, H. S. (2008). Incremental analysis for MCDM with an application to group TOPSIS. European Journal of Operational Research, 186(2), 720-734.
Hwang, C. L., & Yoon, K. (1981). Multiple attribute decision making methods and applications. New York: Springer-Verlag.
Karande, P. & Chakraborty, S. (2013). Using MACBETH method for supplier selection in manufacturing environment. International Journal of Industrial Engineering Computations, 4, 259–272.
Lashkari, R. S., Boparai, R. & Paulo, J. (2004). Towards an integrated model of operation allocation and materials handling selection in cellular manufacturing system. International Journal of Production Economics, 87(2), 115–139.
Paulo, J., Lashkari, R. S., & Dutta, S. P. (2002). Operation allocation and materials-handling system selection in a flexible manufacturing system: a sequential modeling approach. International Journal of Production Research, 40, 7–35.
Raman, D., Nagalingam, S. V., Gurd, B. W., & Lin, G. C. I. (2009). Quantity of material handling equipment—A queuing theory based approach. Robotics and Computer-Integrated Manufacturing, 25, 348–357.
Rembold, B. F., & Tanchoco, J. M. A. (1994). Design justification of material handling systems. In: Tanchoco, J.M.A. (Ed.). Material Flow Systems in Manufacturing. Chapman & Hall, UK, 54–72.
Ribeiro, J. F. F., & Pradin, B. (1993). A methodology for cellular manufacturing design. International Journal of Production Research, 31, 235–250.
Saaty, T. L. (1980). The Analytic Hierarchy Process. McGraw-Hill, NY.
Sharma, S. C. (1999). Production Management. Khanna Publishers.
Sujono, S., & Lashkari, R. S. (2007). A multi-objective model of operation allocation and material handling system selection in FMS design. International Journal of Production Economics, 105, 116–133.
Sule, D.R. (199). Manufacturing Facilities: Location, Planning, and Design. PWS, Boston.