How to cite this paper
Ghazalli, Z & Murata, A. (2011). An integrated TSP-GA with EOL cost model for selecting the best EOL option.International Journal of Industrial Engineering Computations , 2(4), 775-792.
Refrences
Anityasari, M. (2008). Reuse of industrial products – a technical and economic model for decision support. Dissertation(PhD).The University of New South Wales, Australia.
Ayres,R., Ferrer, G., & Leynseele, T.V. (1997). Eco-efficiency, asset recovery and remanufacturing, European Management Journal, 15(5), 557-574.
Azab, A., Ziout, A., & ElMaraghy, W. (2011). Modeling and optimization for disassembly planning. Jordan Journal of Mechanical and Industrial Engineering, 5(1),1-8.ISSN:1995-6665.
Das,S.K., Yeldarajiah,P., & Narendra, R. (2000). An approach for estimating the end-of-life product disassembly effort and cost. International Journal of Production Research, 38(3), 657-673.
Dini, G., Falilli, F., & Santochi, M. (2001). A disassembly planning software system for optimization of recycling process. Production Planning and Control, 12(1), 2-12.
ElSayed , A., Kongar, E., & Gupta, S.M. (2010). A genetic algorithm approach to end-of-life disassembly sequencing for robotic disassembly. Proceedings of 2010 Northeast Decision Sciences Institute Conference, Alexandria, Virginia, 402-408, March 26-28.
Ghazalli, Z. & Murata, A. (2011). Development of an AHP-CBR evaluation system for remanufacturing: End-of-life selection strategy. International Journal of Sustainable Engineering, 4(1), 2-15.
Gungor, A., & Gupta, S.M. (2001). Disassembly sequence plan generation using a branch-and-bound algorithm. International Journal of Production Research, 39(3),481-509.
Henrioud, J.-M, Relange, L., & Perrard, C. (2003). Assembly sequences, assembly constraints, precedence graphs. Proceedings of the IEEE International Symposium on Assembly and Task Planning, 90-95.
Hui, W., Dong, X., & Guanghong, D. (2008). A genetic algorithm for product disassembly sequence planning. Neurocomputing, (13-15), 2720-2726.
Ilgin, M.A., & Gupta, S.M. (2010). Environmentally conscious manufacturing and product recovery: a review the state of art. Journal of Environmental Management, 91(3), 563-591.
Johnson, M.R. (2002). Evaluating remanufacturing and demanufacturing for extended producer responsibility & sustainable product management. PhD dissertation.University of Windsor.
Kaebernick, H., Anityasari, M., & Kara, S. (2002). A technical and economic model for end-of-life options of industrial product. International Journal of Environmental Sustainable Development, 1(2), 171-183.
Ke, C., & Henrioud, J.-M. (1994). Systematic generation of assembly precedence graphs, Proceedings of IEEE International Conference on Robotics and Automation, Issue pt 2, 1476-1482, ISBN: 0818653329.
Kongar, E., & Gupta, S.M. (2006). Disassembly sequencing using genetic algorithm. International Journal of Advance Manufacturing Technology, 30, 497-506.
Krikke, H.R., Harten, A.V., & Schuur, P.C. (1998). On a medium term product recovery and disposal strategy for durable assembly products. International Journal of Production Research, 36 (1), 111-139.
Kusiak, A., & Finke, G. (1987). Modeling and solving the flexible forging module scheduling problem. Engineering Optimization, 12(1), 61–68.
Lambert, A.D.J., & Gupta, S.M. (2005). Disassembly modeling for assembly, maintenance, reuse and recycling.Florida: CRC Press.
Lee, S.G., Lye, S.W., & Khoo. M.S. (2001). A multi-objective methodology for evaluating product end-of-life options and disassembly, International Journal of Advanced Manufacturing Technology, 18(2), 553-575.
Li, J.R., Khoo,L.P., & Tor, S.B. (2005). An object-oriented intelligent disassembly sequence planner for maintenance.Computers in Industry, 699-718.
McGovern, S.M., & Gupta, S.M. (2007). A balancing method and genetic algorithm for disassembly line balancing. European Journal of Operation Research, 179(3), 483-496.
Moon, C., Kim, J., Choi, G., & Seo, Y. (2002). An efficient genetic algorithm for traveling salesman problem with precedence constraints. European Journal of Operational Research, 140, 606-617.
Penev, K.D. and De Ron, A. J. (1996). Determination of a disassembly strategy. International Journal of Production Research, 34(2), 495-506.
Renaud,J., Boctor, F.F., & Ouenniche, J. (2000). A heuristic for the pickup and delivery traveling salesman problem. Computer & Operations Research, 27(9), 905-916.
Ritchey,J.R., Mahmoodi, F., Frascatore, M.R., & Zander, A.K. (2005). A framework to assess the economic viability of remanufacturing. International Journal of Industrial Engineering: Theory Applications and Practice, 12(1), 89-100.
Rose, C.M. (2000). Design for environment: a method for formulating product end-of-life strategies. Dissertation(PhD).Stanford University, Stanford, USA.
Seo, K.-K, Park, J.,-H., & Jang, D.-S. (2001). Optimal disassembly sequence using genetic algorithm considering economic and environmental aspect. International Journal of Advanced Manufacturing Technology, 18, 371-380.
Srinivasan,H., & Gadh, R. (1998). A geometric algorithm for single selective disassembly using the wave propagation abstraction, CAD Computer Aided Design, 30(8), 603-613.
Staikos, T., & Rahimifard, S. (2007). An end-of-life decision support tool for product recovery considerations in footwear industry, International Journal of Computer Integrated Manufacturing, 20(6), 602-615.
Sundin, E., & Bras, B. (2005). Making functional sales environmentally and economically beneficial through product remanufacturing, Journal of Cleaner Production, 13(9), 913-925.
Tan, A., & Kumar, A. (2008). A decision making model to maximize the value of reverse logistics in the computer industry, International Journal of Logistics Systems and Management (IJLSM), 4(3), 297-312.
Tang,O., Grubbström, R.W. & Zanon, S. (2004). Economic evaluation of disassembly process in remanufacturing system. International Journal of Production Research, 36 (1), 111-139.
Xanthopolus, E., & Iakouvou, A. (2009). On the optimal design of the disassembly and recovery processes. Waste Management, 29, 1702–1711.
Xirouchakis, P. & Kritis, D. (1997). Petri net modeling for disassembly process planning, American Society of Mechanical Engineers, Design Engineering Division (Publication) DE, 94, 255-262, ISSN: 15214613.
Zussman, E., Kriwet, A., & Seliger, G. (1994). Disassembly-oriented assessment methodology to support design for recycling, CIRP Annals-Manufacturing Technology, 43(1), 9-14, ISSN: 00078506,DOI: 10.1016/S0007-8506(07)62152-0.
Ayres,R., Ferrer, G., & Leynseele, T.V. (1997). Eco-efficiency, asset recovery and remanufacturing, European Management Journal, 15(5), 557-574.
Azab, A., Ziout, A., & ElMaraghy, W. (2011). Modeling and optimization for disassembly planning. Jordan Journal of Mechanical and Industrial Engineering, 5(1),1-8.ISSN:1995-6665.
Das,S.K., Yeldarajiah,P., & Narendra, R. (2000). An approach for estimating the end-of-life product disassembly effort and cost. International Journal of Production Research, 38(3), 657-673.
Dini, G., Falilli, F., & Santochi, M. (2001). A disassembly planning software system for optimization of recycling process. Production Planning and Control, 12(1), 2-12.
ElSayed , A., Kongar, E., & Gupta, S.M. (2010). A genetic algorithm approach to end-of-life disassembly sequencing for robotic disassembly. Proceedings of 2010 Northeast Decision Sciences Institute Conference, Alexandria, Virginia, 402-408, March 26-28.
Ghazalli, Z. & Murata, A. (2011). Development of an AHP-CBR evaluation system for remanufacturing: End-of-life selection strategy. International Journal of Sustainable Engineering, 4(1), 2-15.
Gungor, A., & Gupta, S.M. (2001). Disassembly sequence plan generation using a branch-and-bound algorithm. International Journal of Production Research, 39(3),481-509.
Henrioud, J.-M, Relange, L., & Perrard, C. (2003). Assembly sequences, assembly constraints, precedence graphs. Proceedings of the IEEE International Symposium on Assembly and Task Planning, 90-95.
Hui, W., Dong, X., & Guanghong, D. (2008). A genetic algorithm for product disassembly sequence planning. Neurocomputing, (13-15), 2720-2726.
Ilgin, M.A., & Gupta, S.M. (2010). Environmentally conscious manufacturing and product recovery: a review the state of art. Journal of Environmental Management, 91(3), 563-591.
Johnson, M.R. (2002). Evaluating remanufacturing and demanufacturing for extended producer responsibility & sustainable product management. PhD dissertation.University of Windsor.
Kaebernick, H., Anityasari, M., & Kara, S. (2002). A technical and economic model for end-of-life options of industrial product. International Journal of Environmental Sustainable Development, 1(2), 171-183.
Ke, C., & Henrioud, J.-M. (1994). Systematic generation of assembly precedence graphs, Proceedings of IEEE International Conference on Robotics and Automation, Issue pt 2, 1476-1482, ISBN: 0818653329.
Kongar, E., & Gupta, S.M. (2006). Disassembly sequencing using genetic algorithm. International Journal of Advance Manufacturing Technology, 30, 497-506.
Krikke, H.R., Harten, A.V., & Schuur, P.C. (1998). On a medium term product recovery and disposal strategy for durable assembly products. International Journal of Production Research, 36 (1), 111-139.
Kusiak, A., & Finke, G. (1987). Modeling and solving the flexible forging module scheduling problem. Engineering Optimization, 12(1), 61–68.
Lambert, A.D.J., & Gupta, S.M. (2005). Disassembly modeling for assembly, maintenance, reuse and recycling.Florida: CRC Press.
Lee, S.G., Lye, S.W., & Khoo. M.S. (2001). A multi-objective methodology for evaluating product end-of-life options and disassembly, International Journal of Advanced Manufacturing Technology, 18(2), 553-575.
Li, J.R., Khoo,L.P., & Tor, S.B. (2005). An object-oriented intelligent disassembly sequence planner for maintenance.Computers in Industry, 699-718.
McGovern, S.M., & Gupta, S.M. (2007). A balancing method and genetic algorithm for disassembly line balancing. European Journal of Operation Research, 179(3), 483-496.
Moon, C., Kim, J., Choi, G., & Seo, Y. (2002). An efficient genetic algorithm for traveling salesman problem with precedence constraints. European Journal of Operational Research, 140, 606-617.
Penev, K.D. and De Ron, A. J. (1996). Determination of a disassembly strategy. International Journal of Production Research, 34(2), 495-506.
Renaud,J., Boctor, F.F., & Ouenniche, J. (2000). A heuristic for the pickup and delivery traveling salesman problem. Computer & Operations Research, 27(9), 905-916.
Ritchey,J.R., Mahmoodi, F., Frascatore, M.R., & Zander, A.K. (2005). A framework to assess the economic viability of remanufacturing. International Journal of Industrial Engineering: Theory Applications and Practice, 12(1), 89-100.
Rose, C.M. (2000). Design for environment: a method for formulating product end-of-life strategies. Dissertation(PhD).Stanford University, Stanford, USA.
Seo, K.-K, Park, J.,-H., & Jang, D.-S. (2001). Optimal disassembly sequence using genetic algorithm considering economic and environmental aspect. International Journal of Advanced Manufacturing Technology, 18, 371-380.
Srinivasan,H., & Gadh, R. (1998). A geometric algorithm for single selective disassembly using the wave propagation abstraction, CAD Computer Aided Design, 30(8), 603-613.
Staikos, T., & Rahimifard, S. (2007). An end-of-life decision support tool for product recovery considerations in footwear industry, International Journal of Computer Integrated Manufacturing, 20(6), 602-615.
Sundin, E., & Bras, B. (2005). Making functional sales environmentally and economically beneficial through product remanufacturing, Journal of Cleaner Production, 13(9), 913-925.
Tan, A., & Kumar, A. (2008). A decision making model to maximize the value of reverse logistics in the computer industry, International Journal of Logistics Systems and Management (IJLSM), 4(3), 297-312.
Tang,O., Grubbström, R.W. & Zanon, S. (2004). Economic evaluation of disassembly process in remanufacturing system. International Journal of Production Research, 36 (1), 111-139.
Xanthopolus, E., & Iakouvou, A. (2009). On the optimal design of the disassembly and recovery processes. Waste Management, 29, 1702–1711.
Xirouchakis, P. & Kritis, D. (1997). Petri net modeling for disassembly process planning, American Society of Mechanical Engineers, Design Engineering Division (Publication) DE, 94, 255-262, ISSN: 15214613.
Zussman, E., Kriwet, A., & Seliger, G. (1994). Disassembly-oriented assessment methodology to support design for recycling, CIRP Annals-Manufacturing Technology, 43(1), 9-14, ISSN: 00078506,DOI: 10.1016/S0007-8506(07)62152-0.