پذیرش فناوری تولید پیشرفته و سبز: طبقه بندی و مرور
Subject Areas : Smart & Advanced Materials
1 - Young Researcher and Elite Club, Department of Engineering, Zahedan Branch, Islamic Azad University, Zahedan, Iran
Keywords:
Abstract :
[1] T.D.a.S.A.E. Fry, FMS implementation procedure: a case study, IIE Transactions on Industrial Engineering, 21 (1989) 6.
[2] R.P.a.V. Mohanty, S., Planning for CIMS: a case study, Journal of Applied Manufacturing Systems, 4 (1991) 10.
[3] S.a.R. Babbar, A., Computer integrated flexible manufacturing: an implementation framework, International Journal of Operations & Production Management, 10 (1990) 9.
[4] J.R. Meredith, Managing factory automation projects, Journal of Manufacturing Systems, 6 (1987) 17.
[5] S. Afzulpurkar, Huq, F. and Kurpad, M., An alternative framework for design and implementation of cellular manufacturing, International Journal of Operations & Production Management, 13 (1993) 14.
[6] J.R. Meredith, Implementing the automated factory, Journal of Manufacturing Systems, 6 (1987) 13.
[7] K.B. Chung, Implementing industrial engineering policies: a systems management perspective, International Journal of Operations & Production Management, 10 (1990) 11.
[8] D. Twigg, Voss, C.A. and Winch, G.M., Implementing integrating technologies: developing managerial integration for CAD/CAM, International Journal of Operations &Production Management, 12 (1992) 16.
[9] J.a.H. Bessant, B., Flexibility in manufacturing systems, Omega, 14 (1986) 9.
[10] H.a.D. Boer, W.E., Management of process innovation – the case of FMS: a systems approach, International Journal of Production Research, 25 (1987) 12.
[11] C.A. Voss, Managing advanced manufacturing technology, International Journal of Operations & Production Management, 6 (1986) 4.
[12] A.B. Badiru, Strategic planning for automated manufacturing: some factors and dimensions, Justification Methods for Integrated Manufacturing Systems, Elsevier, New York, NY., (1990) 23.
[13] H. Boer, Hill, M. and Krabbendam, K., FMS implementation management: promise and performance, International Journal of Operations & Production Management, 10 (1990) 16.
[14] M.R. Hill, FMS management: the scope for further research, International Journal of Operations & Production Management, 5 (1985) 3.
[15] V. Datta, Sambasivarao, K.V., Kodali, R. and Deshmukh, S.G., Multi-attribute decision model using the analytic hierarchy process for the justification of manufacturing systems, International Journal of Production Economics, 28 (1992) 8.
[16] C.A. Voss, Implementing manufacturing technology: a manufacturing strategy approach, International Journal of Operations & Production Management, 6 (1986) 9.
[17] B.a.C. Naik, A.K., Strategic acquisition of new manufacturing technology: a review and research framework, International Journal of Production Research, 30 (1992) 7.
[18] K.V.a.D. Sambasivarao, S.G., Strategic framework for implementing the flexible manufacturing systems in India, International Journal of Operations & Production Management, 14 (1994) 14.
[19] C.N.a.G. Madu, N.C., Strategic thrust of manufacturing automation decisions: a conceptual framework, IIE Transactions on Industrial Engineering, 23 (1991) 11.
[20] Y.H. Park, Park, E.H. and Ntuen, C.A., An economic model for cellular manufacturing systems, Justification Methods for Integrated Manufacturing Systems, Elsevier, New York, NY, (1990) 17.
[21] B.L.a.S. Cho, S.M., Planning and implementing computer aided manufacturing systems, Justification Methods for Integrated Manufacturing Systems, Elsevier, New York, NY., (1990) 22.
[22] R.P. Mohanty, Analysis of justification problems in CIMS: review and projections, International Journal of Production Planning and Control, 4 (1993) 12.
[23] F.a.K. Tayyari, D.E., Total cost analysis of modern automated systems, Justification Methods for Integrated Manufacturing Systems, Elsevier, New York, NY., (1990) 8.
[24] J.G.a.A. Demmel, R.G., A multiple-objective decision model for the evaluation of advanced manufacturing system technologies, Journal of Manufacturing Systems, 111 (1992) 16.
[25] A.R.a.M. Young, J., Performance evaluation of FMS, International Journal of Operations & Production Management, 6 (1986) 6.
[26] R.T.S. S.A. Melngk, Green Manufacturing, Society of Manufacturing Engineers, Dearborn, (1996).
[27] H.Z. F. Liu, X.H. Cheng, A decision-making framework model for green manufacturing and the case study, J. Mech. Eng, 35 (1999) 5.
[28] J. Hu, Evolving paradigms of manufacturing: From mass production to mass customization and personalization, Procedia CIRP, 7 (2013) 6.
[29] L.M. Sanchez, & Nagi, R., A review of agile manufacturing systems, International Journal of Production Research, 39 (2001) 40.
[30] F. Chan, The effects of routing flexibility on a flexible manufacturing system, International Journal of Computer Integrated Manufacturing, 14 (2001) 15.
[31] J.W.a.B. Troxler, L., Decision support system for value analysis of integrated manufacturing technology, Justification Methods for Integrated Manufacturing Systems, Elsevier, New York, NY., (1990) 10.
[32] J.R. Meredith, Automating the factory: theory versus practice, International Journal of Production Research, 25 (1987) 18.
[33] W.G. Sullivan, Replacement decision in high technology industries – where are those models when you need them?, Proceedings of Annual International Industrial Engineering Conference, Chicago, (1984) 10.
[34] H.J. Warnecke, Steinhirpes, R. and Roth, H.P., Developments and planning for FMS – requirements, examples and experiences, International Journal of Production Research, 24 (1986) 10.
[35] W. Xiang, Song, F. S., & Ye, F. F. , Order allocation for multiple supply-demand networks within a cluster, Journal of Intelligent Manufacturing, 26 (2014) 10.
