Environmentally conscious manufacturing and product recovery (ECMPRO): A review of the state of the art.
暂无分享,去创建一个
[1] Nico Vandaele,et al. Reverse logistics network design with stochastic lead times , 2007, Comput. Oper. Res..
[2] Manbir S. Sodhi,et al. MODELLING MATERIAL SEPARATION PROCESSES IN BULK RECYCLING , 1999 .
[3] Patroklos Georgiadis,et al. A system dynamics model for dynamic capacity planning of remanufacturing in closed-loop supply chains , 2007, Comput. Oper. Res..
[4] H. Kaebernick,et al. State of the Art Literature Survey on Disassembly Planning , 1998 .
[5] T. Hawkins. International Journal of Production Research , 1962, Nature.
[6] Samar K. Mukhopadhyay,et al. Reverse logistics in e‐business , 2004 .
[7] Manoranjan Maiti,et al. Production?remanufacturing control problem for defective item under possibility constrains , 2008 .
[8] Rajesh Srivastava,et al. Scheduling policies for remanufacturing , 1997 .
[9] Ismail Serdar Bakal,et al. Effects of Random Yield in Remanufacturing with Price‐Sensitive Supply and Demand , 2006 .
[10] Samir K. Srivastava,et al. Network design for reverse logistics , 2008 .
[11] Alfred J. D. Lambert,et al. Optimizing disassembly processes subjected to sequence-dependent cost , 2007, Comput. Oper. Res..
[12] Manoj Kumar Tiwari,et al. Expert Enhanced Coloured Stochastic Petri Net and its application in assembly/disassembly , 2003 .
[13] Wim Dewulf,et al. Can large-scale disassembly be profitable? A linear programming approach to quantifying the turning point to make disassembly economically viable , 2006 .
[14] Manu Sharma,et al. Asset management with reverse product flows and environmental considerations , 2007, Comput. Oper. Res..
[15] Peter Schuur,et al. On a medium term product recovery and disposal strategy for durable assembly products , 1998 .
[16] Surendra M. Gupta,et al. A petri net approach to disassembly process planning , 1998 .
[17] Farzad Dehghanian,et al. Designing sustainable recovery network of end-of-life products using genetic algorithm , 2009 .
[18] Geraldo Ferrer,et al. MATERIAL PLANNING FOR A REMANUFACTURING FACILITY , 2001 .
[19] Joseph Sarkis,et al. Evaluating environmentally conscious business practices , 1998, Eur. J. Oper. Res..
[20] Mohamad Y. Jaber,et al. An economic production and remanufacturing model with learning effects , 2011 .
[21] Surendra M. Gupta,et al. Reverse Supply Chain Design: A Neural Network Approach , 2009 .
[22] K. Richter,et al. The reverse Wagner/Whitin model with variable manufacturing and remanufacturing cost , 2001 .
[23] K. Richter,et al. A production/recycling model with quality consideration , 2006 .
[24] Helmut Bley,et al. Appropriate Human Involvement in Assembly and Disassembly , 2004 .
[25] Glenn Johansson,et al. Managing the design/environment interface: studies of integration mechanisms , 2007 .
[26] Shaligram Pokharel,et al. Strategic network design for reverse logistics and remanufacturing using new and old product modules , 2009, Comput. Ind. Eng..
[27] Jong-Oh Park,et al. Optimal Disassembly Sequence Using Genetic Algorithms Considering Economic and Environmental Aspects , 2001 .
[28] Mohamad Y. Jaber,et al. The EOQ repair and waste disposal model with switching costs , 2008, Comput. Ind. Eng..
[29] S. Mitra. Revenue management for remanufactured products , 2007 .
[30] P. Brander *,et al. Cyclic lot scheduling with sequence-dependent set-ups: a heuristic for disassembly processes , 2005 .
[31] D H Lee,et al. DESIGN OF PRODUCT RECOVERY NETWORK UNDER UNCERTAINTY, TRANSPORTATION RESEARCH RECORD , 2007 .
[32] Luc Muyldermans,et al. Hewlett-Packard Company Unlocks the Value Potential from Time-Sensitive Returns , 2005, Interfaces.
[33] Neslihan Demirel,et al. A mixed integer programming model for remanufacturing in reverse logistics environment , 2008 .
[34] Erwin van der Laan,et al. Leadtime effects and policy improvement for stochastic inventory control with remanufacturing , 2001 .
[35] Carlton H. Scott,et al. Model for the allocation of electronics components to reuse options , 2004 .
[36] Luk N. Van Wassenhove,et al. The effect of remanufacturing on procurement decisions for resellers in secondary markets , 2005, Eur. J. Oper. Res..
[37] Surendra M. Gupta,et al. A multi-echelon inventory system with returns , 1998 .
[38] K. Inderfurth. Optimal policies in hybrid manufacturing/remanufacturing systems with product substitution , 2004 .
[39] Günther Seliger,et al. Emulation-based control of a disassembly system for LCD monitors , 2009 .
[40] Levent Kandiller,et al. Profit-oriented disassembly-line balancing , 2008 .
[41] Vedat Verter,et al. Retail-collection network design under deposit-refund , 2007, Comput. Oper. Res..
[42] Shinichiro Nakamura,et al. Input‐Output Analysis of Waste Management , 2002 .
[43] Surendra M. Gupta,et al. Disassembly to order system under uncertainty , 2006 .
[44] Ying Tang,et al. Human-in-the-Loop Disassembly Modeling and Planning , 2007 .
[45] Shahin Rahimifard,et al. Computer-aided recycling process planning for end-of-life electrical and electronic equipment , 2007 .
[46] V D R Guide,et al. Proactive expediting policies for recoverable manufacturing , 1998, J. Oper. Res. Soc..
[47] Ruud H. Teunter,et al. Dynamic lot sizing with product returns and remanufacturing , 2006 .
[48] Qinghua Zhu,et al. Initiatives and outcomes of green supply chain management implementation by Chinese manufacturers. , 2007, Journal of environmental management.
[49] Ovidiu Listes,et al. A generic stochastic model for supply-and-return network design , 2007, Comput. Oper. Res..
[50] Carsten Franke,et al. Remanufacturing of mobile phones—capacity, program and facility adaptation planning , 2006 .
[51] Kamlesh Mathur,et al. Reverse logistics: simultaneous design of delivery routes and returns strategies , 2007, Comput. Oper. Res..
[52] E. Silver,et al. Forecasting the returns of reusable containers , 1989 .
[53] Sami Kara,et al. Simulation modelling of reverse logistics networks , 2007 .
[54] Ruud H. Teunter,et al. Economic Lot Scheduling Problem with Returns , 2006 .
[55] Ruud H. Teunter,et al. Multi-product economic lot scheduling problem with separate production lines for manufacturing and remanufacturing , 2008, Eur. J. Oper. Res..
[56] Daoud Ait-Kadi,et al. A stochastic programming approach for designing supply loops , 2008 .
[57] Harold Krikke,et al. Redesign of a recycling system for LPG-tanks , 2004, OR Spectr..
[58] Elif Akçali,et al. Analyzing the effects of inventory cost setting rules in a disassembly and recovery environment , 2008 .
[59] Ehud Kroll. Application of Work-Measurement Analysis to Product Disassembly for Recycling , 1996 .
[60] Spyros Reveliotis,et al. Uncertainty management in optimal disassembly planning through learning-based strategies , 2007 .
[61] Vaidyanathan Jayaraman,et al. The effect of lead time variation on the performance of disassembly release mechanisms , 1999 .
[62] Gülfem Tuzkaya,et al. Evaluating centralized return centers in a reverse logistics network: An integrated fuzzy multi-criteria decision approach , 2008 .
[63] Joseph Sarkis,et al. Greener manufacturing and operations : from design to delivery and back /ed. by Joseph Sarkis , 2002 .
[64] Qin Lu,et al. Model-based analysis of capacity and service fees for electronics recyclers , 2006 .
[65] Hwai-En Tseng,et al. Modular design to support green life-cycle engineering , 2008, Expert Syst. Appl..
[66] A. Noorul Haq,et al. An application of the Analytical Hierarchy Process and Fuzzy Analytical Hierarchy Process in the selection of collecting centre location for the reverse logistics Multicriteria Decision-Making supply chain model , 2008 .
[67] Chandra Lalwani,et al. Reverse logistics network design: a state-of-the-art literature review , 2009, Int. J. Bus. Perform. Supply Chain Model..
[68] Ehud Kroll,et al. Quantitative evaluation of product disassembly for recycling , 1998 .
[69] M. Realff,et al. Carpet Recycling: Determining the Reverse Production System Design , 1999 .
[70] Surendra M. Gupta,et al. A path-relinking approach for a bi-criteria disassembly sequencing problem , 2008, Comput. Oper. Res..
[71] J Dethloff,et al. Relation between vehicle routing problems: an insertion heuristic for the vehicle routing problem with simultaneous delivery and pick-up applied to the vehicle routing problem with backhauls , 2002, J. Oper. Res. Soc..
[72] Fabio Giudice,et al. Product Design for the Environment: A Life Cycle Approach , 2006 .
[73] Askiner Gungor,et al. Issues in environmentally conscious manufacturing and product recovery: a survey , 1999 .
[74] Xiao-Bing Hu,et al. Multi-objective optimization of material selection for sustainable products: Artificial neural networks and genetic algorithm approach , 2009 .
[75] V. D. R. Guide. Scheduling using drum-buffer-rope in a remanufacturing environment , 1996 .
[76] J. M. Chimenos,et al. Using the recyclability index of materials as a tool for design for disassembly , 2004 .
[77] P. N. Hobson,et al. Engineering for profit from waste. Proceedings of the Institution of Mechanical Engineers , 1988 .
[78] Ana Inés Fernández,et al. A proposal for quantifying the recyclability of materials , 2002 .
[79] Tracy Bhamra,et al. Ecodesign: The search for new strategies in product development , 2004 .
[80] Jiuh-Biing Sheu,et al. An Integrated Logistics Operational Model for Green-Supply Chain Management , 2005 .
[81] MengChu Zhou,et al. Intelligent decision making in disassembly process based on fuzzy reasoning Petri nets , 2004, IEEE Transactions on Systems, Man, and Cybernetics, Part B (Cybernetics).
[82] P. C. Schuur,et al. Business case Océ: Reverse logistic network re-design for copiers , 1999 .
[83] Li Pan,et al. A knowledge base for indexing and retrieving disassembly plans , 2001, J. Intell. Manuf..
[84] Maria Cândida Mourão,et al. Lower-bounding and heuristic methods for a refuse collection vehicle routing problem , 2000, Eur. J. Oper. Res..
[85] Surendra M. Gupta,et al. An evaluation methodology for disassembly processes , 1997 .
[86] Toyokazu Nose,et al. Analysis of a product recovery system , 2002 .
[87] Anil Mital,et al. Incorporating work factors in design for disassembly in product design , 2005 .
[88] Jo van Nunen,et al. Special Section: Closed-Loop Supply Chains: Practice and Potential: Integrating Closed-Loop Supply Chains and Spare-Parts Management at IBM , 2002, Interfaces.
[89] Surendra M. Gupta,et al. A case-based reasoning approach for automating disassembly process planning , 2002, J. Intell. Manuf..
[90] L. V. Wassenhove,et al. MANAGING PRODUCT RETURNS FOR REMANUFACTURING , 2001 .
[91] Samir K. Srivastava. Value recovery network design for product returns , 2008 .
[92] M. Helms,et al. Performance measurement for green supply chain management , 2005 .
[93] Joeseph Sarkis,et al. A methodological framework for evaluating environmentally conscious manufacturing programs , 1999 .
[94] Belarmino Adenso-Díaz,et al. A scatter search approach to the optimum disassembly sequence problem , 2006, Comput. Oper. Res..
[95] Erwin A. van der Laan,et al. Production , Manufacturing and Logistics Inventory control with product returns : The impact of imperfect information , 2009 .
[96] Lars Hein,et al. Design Methodology in Practice , 1994 .
[97] H. Groenevelt,et al. COMPETITION IN REMANUFACTURING , 2001 .
[98] Samuel H. Huang,et al. Design for manufacture and design for `X`: concepts, applications, and perspectives , 2001 .
[99] R. W. Grubbström,et al. Considering stochastic lead times in a manufacturing/remanufacturing system with deterministic demands and returns , 2005 .
[100] Necati Aras,et al. Locating collection centers for distance- and incentive-dependent returns , 2008 .
[101] Patroklos Georgiadis,et al. The impact of two-product joint lifecycles on capacity planning of remanufacturing networks , 2010, Eur. J. Oper. Res..
[102] Karl Inderfurth,et al. Heuristics for solving disassemble-to-order problems with stochastic yields , 2006, OR Spectr..
[103] S. Webster,et al. Competition in remanufacturing and the effects of government subsidies , 2008 .
[104] R. Srivastava,et al. Production planning and control for remanufacturing: a state - of - the - art survey , 1999 .
[105] R. W. Grubbström,et al. Planned lead time determination in a make-to-order remanufacturing system , 2007 .
[106] K. Inderfurth. Impact of uncertainties on recovery behavior in a remanufacturing environment , 2005 .
[107] Dimitrios Vlachos,et al. Production , Manufacturing and Logistics Return handling options and order quantities for single period products , 2003 .
[108] Maurizio Cellura,et al. Eco-sustainable energy and environmental strategies in design for recycling: the software “ENDLESS” , 2003 .
[109] Surendra M. Gupta,et al. Joint Optimization of Transportation and Spare Parts Inventory Policies in a Reverse Logistics Network Using OptQuest , 2008 .
[110] Antonino Risitano,et al. Materials selection in the Life-Cycle Design process: a method to integrate mechanical and environmental performances in optimal choice , 2005 .
[111] William Hoffman,et al. THE "GREEN DESIGN ADVISOR": A TOOL FOR DESIGN FOR ENVIRONMENT , 1999 .
[112] Surendra M. Gupta,et al. Strategic Planning Models for Reverse and Closed-Loop Supply Chains , 2008 .
[113] Peggy Zwolinski,et al. A tool to implement sustainable end-of-life strategies in the product development phase , 2005 .
[114] Ajd Fred Lambert,et al. Disassembly sequencing: A survey , 2003 .
[115] V. Guide,et al. A Hierarchical Decision Model for Re-manufacturing and Re-use , 2003 .
[116] John S. Usher,et al. Production planning for remanufactured products , 2007 .
[117] Surendra M. Gupta,et al. Aggregate planning for end-of-life products , 2001 .
[118] Geraldo Ferrer. Yield information and supplier responsiveness in remanufacturing operations , 2003, Eur. J. Oper. Res..
[119] R. Aracil,et al. Automatic PC disassembly for component recovery , 2004 .
[120] Deniz Aksen,et al. Locating collection centers for incentive-dependent returns under a pick-up policy with capacitated vehicles , 2008, Eur. J. Oper. Res..
[121] Ruud H. Teunter,et al. Determining optimal disassembly and recovery strategies , 2004 .
[122] B. González,et al. A bill of materials-based approach for end-of-life decision making in design for the environment , 2005 .
[123] Rommert Dekker,et al. Controlling inventories with stochastic item returns: A basic model , 2002, Eur. J. Oper. Res..
[124] Der-Horng Lee,et al. Multiproduct Distribution Network Design of Third-Party Logistics Providers with Reverse Logistics Operations , 2007 .
[125] Tsai C. Kuo,et al. Environmentally conscious design and manufacturing: A state-of-the-art survey , 1997 .
[126] Hsiao-Fan Wang,et al. Web-Based Green Products Life Cycle Management Systems: Reverse Supply Chain Utilization , 2008 .
[127] Reza Farzipoor Saen,et al. A new model for selecting third-party reverse logistics providers in the presence of multiple dual-role factors , 2010 .
[128] Jian Yang,et al. A concave‐cost production planning problem with remanufacturing options , 2005 .
[129] P. Xirouchakis,et al. Disassembly scheduling: Integer programming models , 2004 .
[130] Christian Mascle,et al. Algorithmic selection of a disassembly sequence of a component by a wave propagation method , 2003 .
[131] Jian Cao,et al. A Genetic Algorithm Approach on Reverse Logistics Optimization for Product Return Distribution Network , 2005, CIS.
[132] Mark E. Ferguson,et al. The Effect of Competition on Recovery Strategies , 2006 .
[133] Ronald Paul Hill,et al. The role of information technology and systems in reverse logistics: a case study , 2005, Int. J. Technol. Manag..
[134] Yongjian Li,et al. Uncapacitated production planning with multiple product types, returned product remanufacturing, and demand substitution , 2006, OR Spectr..
[135] W.-K. Ching,et al. An inventory model with returns and lateral transshipments , 2003, J. Oper. Res. Soc..
[136] Ioannis Konstantaras,et al. Optimal policy and holding cost stability regions in a periodic review inventory system with manufacturing and remanufacturing options , 2007, Eur. J. Oper. Res..
[137] J. Y Zhu,et al. Application of Bayesian decision networks to life cycle engineering in Green design and manufacturing , 2003 .
[138] Dong-Ho Lee,et al. Disassembly planning and scheduling: Review and further research , 2001 .
[139] Y. Tang,et al. A machine learning approach for optimal disassembly planning , 2009, Int. J. Comput. Integr. Manuf..
[140] Der-Horng Lee,et al. Multiobjective Model and Solution Method for Integrated Forward and Reverse Logistics Network Design for Third-Party Logistics Providers , 2007 .
[141] Walter Wehrmeyer,et al. The Relationship between the Environmental and Economic Performance of Firms , 2001 .
[142] Marco Santochi,et al. Computer Aided Disassembly Planning: State of the Art and Perspectives , 2002 .
[143] Atalay Atasu,et al. Lot Sizing for Optimal Collection and Use of Remanufacturable Returns over a Finite Life‐Cycle , 2006 .
[144] Jonathan D. Linton,et al. Recovery and reclamation of durable goods: a study of television CRTs , 2005 .
[145] Ion Caciula,et al. Real Time Balancing of Complex Disassembly Lines , 2008 .
[146] R. Shankar,et al. ANALYSIS OF INTERACTIONS AMONG THE BARRIERS OF REVERSE LOGISTICS , 2005 .
[147] S. Gupta,et al. Economic Impact of Aluminum‐Intensive Vehicles on the U.S. Automotive Recycling Infrastructure , 2000 .
[148] Alfred J.D. Lambert,et al. Linear programming in disassembly/clustering sequence generation , 1999 .
[149] Bernd Scholz-Reiter,et al. Flexible disassembly systems-layouts and modules for processing obsolete products , 2001 .
[150] Onur Kaya,et al. Incentive and production decisions for remanufacturing operations , 2010, Eur. J. Oper. Res..
[151] Augusto Q. Novais,et al. An optimization model for the design of a capacitated multi-product reverse logistics network with uncertainty , 2007, Eur. J. Oper. Res..
[152] Dimitris Kiritsis,et al. A multi-objective evolutionary algorithm for EOL product recovery optimization: turbocharger case study , 2007 .
[153] María D. Bovea,et al. Redesign methodology for developing environmentally conscious products , 2007 .
[154] Ruud H. Teunter,et al. Lot-sizing for inventory systems with product recovery , 2003, Comput. Ind. Eng..
[155] Carsten W. Scherer,et al. Computational issues in a stochastic finite horizon one product recovery inventory model , 2003, Eur. J. Oper. Res..
[156] Nam Wook Cho,et al. Eco-architecture analysis for end-of-life decision making , 2009 .
[157] Elif Akçali,et al. Benders decomposition with alternative multiple cuts for a multi‐product closed‐loop supply chain network design model , 2007 .
[158] Duan Guanghong,et al. A Genetic Algorithm for Product Disassembly Sequence Planning , 2006, 2006 IEEE International Conference on Engineering of Intelligent Systems.
[159] Ruud H. Teunter,et al. Inventory strategies for systems with fast remanufacturing , 2004, J. Oper. Res. Soc..
[160] Günther Seliger,et al. Dynamic process planning control of hybrid disassembly systems , 2009 .
[161] Nathalie Bostel,et al. A facility location model for logistics systems including reverse flows: The case of remanufacturing activities , 2007, Comput. Oper. Res..
[162] Erwin van der Laan,et al. The Discovery of New Export Products in Ecuador , 2010 .
[163] Surendra M. Gupta,et al. A balancing method and genetic algorithm for disassembly line balancing , 2007, Eur. J. Oper. Res..
[164] Askiner Güngör. Evaluation of connection types in design for disassembly (DFD) using analytic network process , 2006, Comput. Ind. Eng..
[165] Aart van Harten,et al. Business case Roteb: recovery strategies for monitors , 1999 .
[166] Der-Horng Lee,et al. Design of Product Recovery Networks under Uncertainty , 2007 .
[167] Paul H. Zipkin,et al. Inventory Management for an Assembly System with Product or Component Returns , 2005, Manag. Sci..
[168] Sergio Rubio,et al. Characteristics of the research on reverse logistics (1995–2005) , 2008 .
[169] Thomas Spengler,et al. Designing control management systems for parts recovery and spare parts management in the final phase within closed-loop supply chains , 2004 .
[170] Refik Güllü,et al. A model to evaluate inventory costs in a remanufacturing environment , 2003 .
[171] Gerald W. Evans,et al. A bi-objective reverse logistics network analysis for post-sale service , 2008, Comput. Oper. Res..
[172] R. Dekker,et al. Reverse logistics : quantitative models for closed-loop supply chains , 2004 .
[173] Christian Mascle,et al. Integrating environmental consciousness in product/process development based on life-cycle thinking , 2008 .
[174] Ray Jones,et al. An approach to the EuP Directive and the application of the economic eco-design for complex products , 2007 .
[175] L. Wein,et al. Inventory Management of Remanufacturable Products , 2000 .
[176] Otto Rentz,et al. Modeling reverse logistic tasks within closed-loop supply chains: An example from the automotive industry , 2006, Eur. J. Oper. Res..
[177] Matthew J. Realff,et al. Strategic design of reverse production systems , 2000 .
[178] Simme Douwe Flapper,et al. Product recovery in stochastic remanufacturing systems with multiple reuse options , 2001, Eur. J. Oper. Res..
[179] Luk N. Van Wassenhove,et al. Reverse Channel Design: The Case of Competing Retailers , 2006, Manag. Sci..
[180] Rommert Dekker,et al. A stochastic approach to a case study for product recovery network design , 2005, Eur. J. Oper. Res..
[181] Nesim K. Erkip,et al. Assessing the benefits of remanufacturing option under one-way substitution and capacity constraint , 2003, Comput. Oper. Res..
[182] M. Jaber,et al. The production, remanufacture and waste disposal model with lost sales , 2009 .
[183] Wilson Kindlein,et al. Methodology of ecodesign for the development of more sustainable electro-electronic equipments , 2008 .
[184] Nesim K. Erkip,et al. Assessing the benefits of remanufacturing option under one-way substitution , 2005, J. Oper. Res. Soc..
[185] Augusto Q. Novais,et al. A warehouse-based design model for reverse logistics , 2006, J. Oper. Res. Soc..
[186] Xueqing Qian,et al. Design for Environment: An Environmentally Conscious Analysis Model for Modular Design , 2009, IEEE Transactions on Electronics Packaging Manufacturing.
[187] Surendra M. Gupta,et al. Solving the disassembly-to-order problem using linear physical programming , 2009, Int. J. Math. Oper. Res..
[188] Gilvan C. Souza,et al. Two-stage make-to-order remanufacturing with service-level constraints , 2002 .
[189] G Arndt,et al. A review of current research on disassembly sequence generation and computer aided design for disassembly , 2003 .
[190] Rommert Dekker,et al. A characterisation of logistics networks for product recovery , 2000 .
[191] Laura Meade,et al. A conceptual model for selecting and evaluating third‐party reverse logistics providers , 2002 .
[192] Andrew Borchers,et al. Undergraduate course in environmental design and manufacturing , 2005 .
[193] Surendra M. Gupta,et al. ANALYSIS OF DESIGN EFFICIENCY FOR THE DISASSEMBLY OF MODULAR ELECTRONIC PRODUCTS , 1999 .
[194] Christos Zikopoulos,et al. On the attractiveness of sorting before disassembly in remanufacturing , 2008 .
[195] Surendra M. Gupta,et al. Disassembly of complex product structures with parts and materials commonality , 1997 .
[196] Manbir S. Sodhi,et al. Design for Bulk Recycling: Analysis of Materials Separation , 2000 .
[197] Surendra M. Gupta,et al. Eco-procurement strategies for environmentally conscious manufacturers , 2009 .
[198] Scott Webster,et al. Competitive strategy in remanufacturing and the impact of take-back laws , 2007 .
[199] Jacqueline M. Bloemhof-Ruwaard,et al. THE IMPACT OF PRODUCT RECOVERY ON LOGISTICS NETWORK DESIGN , 2001 .
[200] Simme Douwe P. Flapper,et al. A facility location allocation model for reusing carpet materials , 1999 .
[201] Rommert Dekker,et al. A two-level network for recycling sand: A case study , 1998, Eur. J. Oper. Res..
[202] Günther Seliger,et al. Automatic Control Sequence Generation for a Hybrid Disassembly System , 2007, IEEE Transactions on Automation Science and Engineering.
[203] D. Huisingh,et al. Remanufacturing for the automotive aftermarket-strategic factors: literature review and future research needs , 2009 .
[204] Michael E. Ketzenberg,et al. Value of Information in Closed Loop Supply Chains , 2006 .
[205] Yasutaka Kainuma,et al. A multiple attribute utility theory approach to lean and green supply chain management , 2006 .
[206] Akshay Mutha,et al. Perspectives in reverse logistics : A review , 2009 .
[207] Jian Yang,et al. Economic Lot-Sizing with Remanufacturing Options , 2001 .
[208] Svend Erik Mathiassen,et al. An integrated analysis of ergonomics and time consumption in Swedish 'craft-type' car disassembly. , 2005, Applied ergonomics.
[209] Gp Gudrun Kiesmüller. Optimal control of a one product recovery system with leadtimes , 2003 .
[210] Christian N Madu,et al. A hierarchic metric approach for integration of green issues in manufacturing: a paper recycling application. , 2002, Journal of environmental management.
[211] Harold Krikke,et al. Low-frequency collection of materials disassembled from end-of-life vehicles: On the value of on-line monitoring in optimizing route planning , 2008 .
[212] Mehdi Amini,et al. Designing a reverse logistics operation for short cycle time repair services , 2005 .
[213] Bernard Grabot,et al. Knowledge Modeling for Eco-design , 2007, Concurr. Eng. Res. Appl..
[214] Yoshiaki Shimizu,et al. Optimal disassembly sequence generation using a genetic programming , 2007 .
[215] Ruud H. Teunter,et al. Matching Demand and Supply to Maximize Profits from Remanufacturing , 2003, Manuf. Serv. Oper. Manag..
[216] Surendra M. Gupta,et al. ECONOMIC SENSITIVITY FOR END OF LIFE PLANNING AND PROCESSING OF PERSONAL COMPUTERS , 2002 .
[217] Bert Bras,et al. Product, process, and organizational design for remanufacture – an overview of research , 1999 .
[218] Xiuli Qu,et al. Production , Manufacturing and Logistics An automotive bulk recycling planning model , 2006 .
[219] L. Beril Toktay,et al. Market Segmentation and Product Technology Selection for Remanufacturable Products , 2005, Manag. Sci..
[220] Kosuke Ishii,et al. PRODUCT END-OF-LIFE STRATEGY CATEGORIZATION DESIGN TOOL , 1999 .
[221] K. Richter. Pure and mixed strategies for the EOQ repair and waste disposal problem , 1997 .
[222] Benita M. Beamon,et al. Supply-chain network configuration for product recovery , 2004 .
[223] Shivakumar Viswanathan,et al. Product configuration optimization for disassembly planning: A differential approach , 2006 .
[224] Dong-Ho Lee,et al. A Lagrangean heuristic algorithm for disassembly scheduling with capacity constraints , 2006, J. Oper. Res. Soc..
[225] Ehud Kroll,et al. Disassembly analysis through time estimation and other metrics , 1999 .
[226] Surendra M. Gupta,et al. A MULTI-CRITERIA DECISION MAKING APPROACH FOR DISASSEMBLY-TO-ORDER SYSTEMS , 2002 .
[227] V D R Guide,et al. A closed-loop logistics model for remanufacturing , 1999, J. Oper. Res. Soc..
[228] P. Xirouchakis,et al. Two-phase heuristic for disassembly scheduling with multiple product types and parts commonality , 2006 .
[229] Vaidyanathan Jayaraman,et al. Production planning for closed-loop supply chains with product recovery and reuse: an analytical approach , 2006 .
[230] V. Guide. Production planning and control for remanufacturing: industry practice and research needs , 2000 .
[231] Tauno Kekäle,et al. The influence of modularity and industry clockspeed on reverse logistics strategy: Implications for the purchasing function , 2005 .
[232] Kang-Dae Lee,et al. Vehicle routing in reverse logistics for recycling end-of-life consumer electronic goods in South Korea , 2009 .
[233] Mohamed Mohamed Naim,et al. Dynamic performance of a hybrid inventory system with a Kanban policy in remanufacturing process , 2006 .
[234] Rainer Kleber. The integral decision on production/remanufacturing technology and investment time in product recovery , 2006, OR Spectr..
[235] Reha Uzsoy,et al. Optimal disassembly configurations for single and multiple products , 1999 .
[236] Samar K. Mukhopadhyay,et al. Optimal return policy and modular design for build-to-order products , 2005 .
[237] Otto Rentz,et al. Special Section: Closed-Loop Supply Chains: Practice and Potential: Closed-Loop Supply Chains for Spent Batteries , 2003, Interfaces.
[238] Ruud H. Teunter,et al. Erim Report Series Research in Management Simple Heuristics for Push and Pull Remanufacturing Policies Bibliographic Data and Classifications Simple Heuristics for Push and Pull Remanufacturing Policies , 2022 .
[239] Shaligram Pokharel,et al. Pricing used products for remanufacturing , 2009, Eur. J. Oper. Res..
[240] Rajesh Srivastava,et al. Product structure complexity and scheduling of operations in recoverable manufacturing , 1997 .
[241] Marisa de Brito,et al. Managing Product Returns: The Role of Forecasting , 2004 .
[242] Hui-Ming Wee,et al. Optimal policy for a closed-loop supply chain inventory system with remanufacturing , 2008, Math. Comput. Model..
[243] Jayashankar M. Swaminathan,et al. Managing New and Remanufactured Products , 2006, Manag. Sci..
[244] Ming Yu,et al. Location analysis of reverse logistics operations for an international electrical manufacturer in Asia Pacific region using the analytic hierarchy process , 2006 .
[245] Rommert Dekker,et al. Inventory Control in Hybrid Systems with Remanufacturing , 1999 .
[246] Hokey Min,et al. A genetic algorithm approach to developing the multi-echelon reverse logistics network for product returns , 2006 .
[247] John W. Sutherland,et al. Infusing sustainability principles into manufacturing/mechanical engineering curricula , 2005 .
[248] Zhenhua Wu,et al. Application of neural network on environmental impact assessment tools , 2008 .
[249] Surendra M. Gupta,et al. Disassembly sequencing using genetic algorithm , 2006 .
[250] Riccardo Poli,et al. Genetic and Evolutionary Computation – GECCO 2004 , 2004, Lecture Notes in Computer Science.
[251] R. Teunter,et al. On the non-optimality of the average cost approach for inventory models with remanufacturing , 2002 .
[252] Ruozhen Qiu,et al. Dynamic models of closed-loop supply chain and robust H∞ control strategies , 2009 .
[253] P. Xirouchakis,et al. Disassembly Scheduling with Multiple Product Types , 2003 .
[254] Vedat Verter,et al. Coordination and Priority Decisions in Hybrid Manufacturing/Remanufacturing Systems , 2006 .
[255] Surendra M. Gupta,et al. Optimal pricing of reusable and recyclable components under alternative product acquisition mechanisms , 2007 .
[256] Samir K. Srivastava,et al. Green Supply-Chain Management: A State-of-the-Art Literature Review , 2007 .
[257] Dong-Ho Lee,et al. Disassembly scheduling: literature review and future research directions , 2007 .
[258] Karolina Kazmierczak,et al. Car disassembly and ergonomics in Sweden: current situation and future perspectives in light of new environmental legislation , 2004 .
[259] Joseph Sarkis,et al. A strategic sustainability justification methodology for organizational decisions: a reverse logistics illustration , 2007 .
[260] John A. Muckstadt,et al. An analysis of single item inventory systems with returns , 1981 .
[261] Aleda V. Roth,et al. Production, Manufacturing and Logistics Competitive advantage through take-back of used products , 2005 .
[262] Chad W. Autry,et al. Liquidity implications of reverse logistics for retailers: A Markov chain approach , 2005 .
[263] Hsiao-Fan Wang,et al. A closed-loop logistic model with a spanning-tree based genetic algorithm , 2010, Comput. Oper. Res..
[264] Akihiko Mizuno,et al. Inventory control for a MARKOVIAN remanufacturing system with stochastic decomposition process , 2007 .
[265] Elif Akçali,et al. Network design for reverse and closed‐loop supply chains: An annotated bibliography of models and solution approaches , 2009, Networks.
[266] K. Richter. The EOQ repair and waste disposal model with variable setup numbers , 1996 .
[267] Zhifeng Liu,et al. Materials selection for environmentally conscious design via a proposed life cycle environmental performance index , 2009 .
[268] I-Hsuan Hong,et al. Planning the e-Scrap Reverse Production System Under Uncertainty in the State of Georgia: A Case Study , 2006, IEEE Transactions on Electronics Packaging Manufacturing.
[269] Jing-Rong Li,et al. Generation of possible multiple components disassembly sequence for maintenance using a disassembly constraint graph , 2006 .
[270] Gilvan C. Souza,et al. CAPACITATED REMANUFACTURING WITH SERVICE LEVEL CONSTRAINTS* , 2002 .
[271] Surendra M. Gupta,et al. Using Neural Networks to Solve a Disassembly-to-Order Problem , 2009 .
[272] Rudolf Kruse,et al. Neuro-fuzzy approach to forecast returns of scrapped products to recycling and remanufacturing , 2002, Knowl. Based Syst..
[273] MengChu Zhou,et al. Disassembly modeling, planning, and application , 2002 .
[274] Kiyotaka Tahara,et al. Quantifying producer and consumer-based eco-efficiencies for the identification of key ecodesign issues , 2008 .
[275] P. Sasikumar,et al. Issues in reverse supply chains, part I: end‐of‐life product recovery and inventory management – an overview , 2008 .
[276] Jim Browne,et al. Issues in end-of-life product recovery and reverse logistics , 2001 .
[277] Gregory A. DeCroix. Optimal Policy for a Multiechelon Inventory System with Remanufacturing , 2006, Oper. Res..
[278] Kin Keung Lai,et al. Demand uncertainty and manufacturer returns policies for style-good retailing competition , 2005 .
[279] R. Guide,et al. Rough-cut capacity planning for remanufacturing firms , 1997 .
[280] Hiroshi Fujii,et al. Disassembly operation support system with motion monitoring of a human operator , 2001 .
[281] Tamer Boyacı,et al. The effect of categorizing returned products in remanufacturing , 2004 .
[282] Jörgen Winkel,et al. Published online in Wiley InterScience (www.interscience.wiley.com). DOI: 10.1002/hfm.20078 A Case Study of Serial-Flow Car Disassembly: Ergonomics, Productivity and Potential System Performance , 2022 .
[283] Hokey Min,et al. THE DYNAMIC DESIGN OF A REVERSE LOGISTICS NETWORK FROM THE PERSPECTIVE OF THIRD-PARTY LOGISTICS SERVICE PROVIDERS , 2008 .
[284] Louis Y.Y. Lu,et al. Environmental principles applicable to green supplier evaluation by using multi-objective decision analysis , 2007 .
[285] Ioannis Konstantaras,et al. Lot-sizing for a single-product recovery system with backordering , 2006 .
[286] Michael E. Ketzenberg,et al. The value of information in a capacitated closed loop supply chain , 2009, Eur. J. Oper. Res..
[287] Ajd Fred Lambert. Exact methods in optimum disassembly sequence search for problems subject to sequence dependent costs , 2006 .
[288] Ziping Wang,et al. A new location-inventory policy with reverse logistics applied to B2C e-markets of China , 2007 .
[289] K. Richter,et al. Analysis of the EOQ repair and waste disposal problem with integer setup numbers , 1999 .
[290] Erwin van der Laan,et al. Quantitative models for reverse logistics: A review , 1997 .
[291] Knut Richter,et al. The market-oriented dynamic product recovery model in the just-in-time framework , 2003 .
[292] Steven Nahmiasj,et al. A deterministic model for a repairable item inventory system with a finite repair rate , 1979 .
[293] E. A. van deLaan,et al. An (s,Q) inventory model with remanufacturing and disposal , 1996 .
[294] Gilbert Laporte,et al. General solutions to the single vehicle routing problem with pickups and deliveries , 2007, Eur. J. Oper. Res..
[295] Surendra M. Gupta,et al. Disassembly line in product recovery , 2002 .
[296] V. Daniel R. Guide,et al. Optimal Order Quantities with Remanufacturing Across New Product Generations , 2006 .
[297] L. N. Van Wassenhove,et al. Concurrent product and closed-loop supply chain design with an application to refrigerators , 2003 .
[298] Casper Boks,et al. Essential perspectives for design for environment. Experiences from the electronics industry , 2007 .
[299] Y. Zhang,et al. Green QFD-II: A life cycle approach for environmentally conscious manufacturing by integrating LCA and LCC into QFD matrices , 1999 .
[300] Maria Cândida Mourão,et al. Heuristic method for a mixed capacitated arc routing problem: A refuse collection application , 2005, Eur. J. Oper. Res..
[301] Hanif D. Sherali,et al. A precedence-constrained asymmetric traveling salesman model for disassembly optimization , 2006 .
[302] Vincent P. Simpson. Optimum Solution Structure for a Repairable Inventory Problem , 1978, Oper. Res..
[303] Therese Lawlor-Wright,et al. A design for the environment methodology to support an environmental management system , 2001 .
[304] Jaime A. Camelio,et al. Value flow characterization during product lifecycle to assist in recovery decisions , 2007 .
[305] Matthew J. Realff,et al. Assessing performance and uncertainty in developing carpet reverse logistics systems , 2007, Comput. Oper. Res..
[306] Eric Masanet,et al. Assessing the benefits of design for recycling for plastics in electronics: A case study of computer enclosures , 2007 .
[307] Johan Östlin,et al. Importance of closed-loop supply chain relationships for product remanufacturing , 2008 .
[308] Anil Mital,et al. Evaluation of disassemblability to enable design for disassembly in mass production , 2003 .
[309] Gu Qiaolun,et al. Pricing management for a closed-loop supply chain , 2008 .
[310] Manoj Kumar Tiwari,et al. Selection of a reverse logistics project for end-of-life computers: ANP and goal programing approach , 2008 .
[311] Govindan Kannan,et al. Issues in reverse supply chain, part III: classification and simple analysis , 2009 .
[312] Rafael Aracil,et al. Disassembly Planning Based on Precedence Relations among Assemblies , 2003 .
[313] Surendra M. Gupta,et al. Buffer allocation plan for a remanufacturing cell , 2005, Comput. Ind. Eng..
[314] Manoj Kumar Tiwari,et al. Real world disassembly modeling and sequencing problem: Optimization by Algorithm of Self-Guided Ants (ASGA) , 2009 .
[315] Albert Corominas,et al. Optimal manufacturing-remanufacturing policies in a lean production environment , 2008, Comput. Ind. Eng..
[316] Fabio Giudice,et al. End-of-life impact reduction through analysis and redistribution of disassembly depth: A case study in electronic device redesign , 2009, Comput. Ind. Eng..
[317] Stephen M. Disney,et al. Bullwhip and inventory variance in a closed loop supply chain , 2006, OR Spectr..
[318] Julie Ann Stuart Williams,et al. A review of research towards computer integrated demanufacturing for materials recovery , 2007, Int. J. Comput. Integr. Manuf..
[319] Jinxiang Dong,et al. A hierarchical approach to disassembly sequence planning for mechanical product , 2006 .
[320] Ravipudi Venkata Rao,et al. An improved compromise ranking method for evaluation of environmentally conscious manufacturing programs , 2009 .
[321] Joseph Sarkis,et al. RELATIONSHIPS BETWEEN OPERATIONAL PRACTICES AND PERFORMANCE AMONG EARLY ADOPTERS OF GREEN SUPPLY CHAIN MANAGEMENT PRACTICES IN CHINESE MANUFACTURING ENTERPRISES , 2004 .
[322] MengChu Zhou,et al. A methodology for modeling and adaptive planning of disassembly processes , 1999, IEEE Trans. Robotics Autom..
[323] Sanchoy K. Das,et al. An approach for estimating the end-of-life product disassembly effort and cost , 2000 .
[324] K. Richter,et al. An extended production/recycling model with stationary demand and return rates , 2004 .
[325] Geraldo Ferrer. On the widget remanufacturing operation , 2001, Eur. J. Oper. Res..
[326] Donna Mangun,et al. Incorporating component reuse, remanufacture, and recycle into product portfolio design , 2002, IEEE Trans. Engineering Management.
[327] P. Xirouchakis,et al. Disassembly scheduling with capacity constraints: Minimizing the number of products disassembled , 2006 .
[328] Li-Hsing Shih,et al. Intelligent evaluation approach for electronic product recycling via case-based reasoning , 2006, Adv. Eng. Informatics.
[329] Stefan Helber,et al. Decomposition of unreliable assembly/disassembly networks with limited buffer capacity and random processing times , 1998, Eur. J. Oper. Res..
[330] Alfred J.D. Lambert,et al. Environment conscious manufacturing , 2007 .
[331] C. Chung,et al. Evolutionary sequence planning for selective disassembly in de-manufacturing , 2006, Int. J. Comput. Integr. Manuf..
[332] D. Schrady. A deterministic inventory model for reparable items , 1967 .
[333] Fabio Giudice,et al. Disassembly planning of mechanical systems for service and recovery: a genetic algorithms based approach , 2007, J. Intell. Manuf..
[334] Hark Hwang,et al. An optimal ordering and recovery policy for reusable items , 2002 .
[335] S. H. Huang,et al. Environmentally conscious design by using fuzzy multi-attribute decision-making , 2006 .
[336] Prem Vrat,et al. A goal programming model for paper recycling system , 2008 .
[337] V D R Guide,et al. Buffering from material recovery uncertainty in a recoverable manufacturing environment , 1997 .
[338] Surendra M. Gupta,et al. Disassembly sequence planning for products with defective parts in product recovery , 1998 .
[339] Rommert Dekker,et al. An investigation of lead-time effects in manufacturing/remanufacturing systems under simple PUSH and PULL control strategies , 1999, Eur. J. Oper. Res..
[340] Jonathan D. Linton,et al. The role of forecasting in sustainability , 2003 .
[341] Surendra M. Gupta,et al. Metrics for performance measurement of a reverse/closed-loop supply chain , 2009, Int. J. Bus. Perform. Supply Chain Model..
[342] Dilip Chhajed,et al. Production, Manufacturing and Logistics An integrated product returns model with logistics and marketing coordination , 2005 .
[343] Hsin-Hao Huang,et al. Disassembly sequence generation using a neural network approach , 2000 .
[344] P. Georgiadis,et al. Sustainability in electrical and electronic equipment closed-loop supply chains: A System Dynamics approach , 2008 .
[345] Joseph Sarkis,et al. ECOEFFICIENCY MEASUREMENT USING DATA ENVELOPMENT ANALYSIS: RESEARCH AND PRACTITIONER ISSUES , 2004 .
[346] Stefan Minner,et al. Simple expressions for finding recovery system inventory control parameter values , 2003, J. Oper. Res. Soc..
[347] K. Inderfurth. Simple optimal replenishment and disposal policies for a product recovery system with leadtimes , 1997 .
[348] S. Gupta,et al. End‐of‐Life Infrastructure Economics for “Clean Vehicles” in the United States , 2003 .
[349] Imre Dobos,et al. A production/recycling model with stationary demand and return rates ----- Its title in Hungarian: Egy termelési/újrafelhasználási modell konstans keresleti és visszatérési ráta mellett , 2001 .
[350] Guangfen Yang,et al. The optimization of the closed-loop supply chain network , 2009 .
[351] Surendra M. Gupta,et al. Economic Consequences of Increasing Polymer Content for the U.S. Automobile Recycling Infrastructure , 1997 .
[352] Mohamad Y. Jaber,et al. A production/remanufacturing inventory model with price and quality dependant return rate , 2010, Comput. Ind. Eng..
[353] Kenneth D. Lawrence,et al. Applications of management science : in productivity, finance, and operations , 2006 .
[354] Li-Hsing Shih,et al. Reverse logistics system planning for recycling electrical appliances and computers in Taiwan , 2001 .
[355] Jinwoo Park,et al. A Generic Network Design for a Closed-Loop Supply Chain Using Genetic Algorithm , 2004, GECCO.
[356] Ying Dong,et al. Inventory management in reverse logistics: a survey , 2005, Proceedings of ICSSSM '05. 2005 International Conference on Services Systems and Services Management, 2005..
[357] Gilvan C. Souza,et al. Time Value of Commercial Product Returns , 2006, Manag. Sci..
[358] Xiaoyu Ji,et al. Logistics network design for product recovery in fuzzy environment , 2010, Eur. J. Oper. Res..
[359] Tomohiko Sakao,et al. A QFD-centred design methodology for environmentally conscious product design , 2007 .
[360] Ihsan Sabuncuoglu,et al. Two exact formulations for disassembly line balancing problems with task precedence diagram construction using an AND/OR graph , 2009 .
[361] R.W.J. Aldington,et al. Green technology and design for the environment , 1998 .
[362] Erwin van der Laan,et al. Setting the holding cost rates in a two-product system with remanufacturing , 2007 .
[363] María D. Bovea,et al. Identifying environmental improvement options by combining life cycle assessment and fuzzy set theory , 2003 .
[364] David Taniar,et al. Computational Science and Its Applications - ICCSA 2005, International Conference, Singapore, May 9-12, 2005, Proceedings, Part I , 2005, ICCSA.
[365] X. F. Zha,et al. Assembly/disassembly task planning and simulation using expert Petri nets , 2000 .
[366] E. Akçalı,et al. An analysis of decentralized collection and processing of end-of-life products , 2007 .
[367] Shivakumar Viswanathan,et al. Configuration analysis to support product redesign for end-of-life disassembly , 2000 .
[368] Alfred J.D. Lambert,et al. Disassembly Modeling for Assembly, Maintenance, Reuse and Recycling , 2004 .
[369] Adisa Azapagic,et al. Improving recyclability by design: a case study of fibre optic cable , 2005 .
[370] Paul Xirouchakis,et al. Disassembly Scheduling with Capacity Constraints , 2002 .
[371] Thomas K. L. Tong,et al. Multi-criteria material selections and end-of-life product strategy: Grey relational analysis approach , 2007 .
[372] S. G. Lee,et al. A Multi-Objective Methodology for Evaluating Product End-of-Life Options and Disassembly , 2001 .
[373] K. Nakashima *,et al. Optimal control of a remanufacturing system , 2004 .
[374] Thomas Spengler,et al. Special Section: Closed-Loop Supply Chains: Practice and Potential: Strategic Management of Spare Parts in Closed-Loop Supply Chains - A System Dynamics Approach , 2003, Interfaces.
[375] Tugba Efendigil,et al. A holistic approach for selecting a third-party reverse logistics provider in the presence of vagueness , 2008, Comput. Ind. Eng..
[376] Patroklos Georgiadis,et al. The effect of environmental parameters on product recovery , 2004, Eur. J. Oper. Res..
[377] Zhifeng Liu,et al. Recycling strategy and a recyclability assessment model based on an artificial neural network , 2002 .
[378] Surendra M. Gupta,et al. Combinatorial optimization analysis of the unary NP-complete disassembly line balancing problem , 2007 .
[379] Qinghua Zhu,et al. Green supply chain management in China: pressures, practices and performance , 2005 .
[380] P. Rao,et al. Do green supply chains lead to competitiveness and economic performance , 2005 .
[381] V. Daniel,et al. Scheduling with priority dispatching rules and drum-buffer-rope in a recoverable manufacturing system , 1997 .
[382] Erwin van der Laan,et al. Product remanufacturing and disposal: A numerical comparison of alternative control strategies , 1996 .
[383] Yun Zhu,et al. A hybrid simulation optimization method for production planning of dedicated remanufacturing , 2009 .
[384] Moritz Fleischmann,et al. Planning stability in a product recovery system , 2001, OR Spectr..
[385] Sarah M. Ryan,et al. A Markov decision model to evaluate outsourcing in reverse logistics , 2007 .
[386] Surendra M. Gupta,et al. Strategic planning of a reverse supply chain network , 2005 .
[387] Samar K. Mukhopadhyay,et al. The role of 4PL as the reverse logistics integrator , 2006 .
[388] Erik Rolland,et al. The design of reverse distribution networks: Models and solution procedures , 2003, Eur. J. Oper. Res..
[389] Knut Richter,et al. Remanufacturing planning for the reverse Wagner/Whitin models , 2000, Eur. J. Oper. Res..
[390] Der-Horng Lee,et al. A HEURISTIC APPROACH TO LOGISTICS NETWORK DESIGN FOR END-OF-LEASE COMPUTER PRODUCTS RECOVERY , 2008 .
[391] E. A. van deLaan,et al. Production planning and inventory control with remanufacturing and disposal , 1997 .
[392] Tsai C. Kuo,et al. Disassembly sequence and cost analysis for electromechanical products , 2000 .
[393] Surendra M. Gupta,et al. ENVIRONMENTAL CONCERNS AND RECYCLING/DISASSEMBLY EFFORTS IN THE ELECTRONICS INDUSTRY , 1997 .
[394] Roelof Kuik,et al. On optimal inventory control with independent stochastic item returns , 2003, Eur. J. Oper. Res..
[395] Luk N. Van Wassenhove,et al. The Economics of Remanufacturing Under Limited Component Durability and Finite Product Life Cycles , 2007, Manag. Sci..
[396] G. Kannan,et al. Fuzzy approach for the selection of third party reverse logistics provider , 2009 .
[397] V. Daniel R. Guide,et al. An evaluation of order release strategies in a remanufacturing environment , 1997, Comput. Oper. Res..
[398] Hark Hwang,et al. Deterministic inventory model for recycling system , 2006, J. Intell. Manuf..
[399] B. Kopacek,et al. Intelligent, flexible disassembly , 2006 .
[400] Rahul Rai,et al. Disassembly sequence generation: A Petri net based heuristic approach , 2002 .
[401] Gerald W. Evans,et al. A genetic algorithm-based heuristic for the dynamic integrated forward/reverse logistics network for 3PLs , 2007, Comput. Oper. Res..
[402] Alfred J.D. Lambert. Optimal disassembly of complex products , 1994 .
[403] Mir Saman Pishvaee,et al. Reverse logistics network design using simulated annealing , 2010 .
[404] Hui-Ming Wee,et al. Optimal Ordering and Recovery Policy for Reusable Items with Shortages , 2006, SEAL.
[405] Jayashankar M. Swaminathan,et al. Managing new and differentiated remanufactured products , 2010, Eur. J. Oper. Res..
[406] Govindan Kannan,et al. Issues in reverse supply chains, part II: reverse distribution issues – an overview , 2008 .
[407] Alberto Gómez,et al. A Decision-Making Support System on a Products Recovery Management Framework. A Fuzzy Approach , 2008, Concurr. Eng. Res. Appl..
[408] Christos Zikopoulos,et al. Impact of uncertainty in the quality of returns on the profitability of a single-period refurbishing operation , 2007, Eur. J. Oper. Res..
[409] Karl Inderfurth,et al. Decision support for spare parts acquisition in post product life cycle , 2008, Central Eur. J. Oper. Res..
[410] Bongju Jeong,et al. Supply planning model for remanufacturing system in reverse logistics environment , 2006, Comput. Ind. Eng..
[411] P. Xirouchakis,et al. Modelling and evaluating product end-of-life options , 2001 .
[412] O. Tang,et al. The impact of information transparency on the dynamic behaviour of a hybrid manufacturing/remanufacturing system , 2004 .
[413] R. Teunter. Economic ordering quantities for recoverable item inventory systems , 2001 .
[414] Bongju Jeong,et al. Optimization Model for Remanufacturing System at Strategic and Operational Level , 2005, ICCSA.
[415] Paulo Ferrão,et al. Design for recycling in the automobile industry: new approaches and new tools , 2006 .
[416] Michael R. Galbreth,et al. Optimal Acquisition and Sorting Policies for Remanufacturing , 2006 .
[417] Alfred J.D. Lambert,et al. Methods for optimum and near optimum disassembly sequencing , 2008 .
[418] David F. Pyke,et al. Periodic review, push inventory policies for remanufacturing , 2002, Eur. J. Oper. Res..
[419] H. Meerkamm,et al. Design for X—A Core Area of Design Methodology , 1994 .
[420] I-H S U A N H O N G,et al. Centralized versus Decentralized Decision-Making for Recycled Material Flows , 2008 .
[421] P.J. Rios,et al. Scheduling selective disassembly for plastics recovery in an electronics recycling center , 2004, IEEE Transactions on Electronics Packaging Manufacturing.
[422] Jiuh-Biing Sheu,et al. A REVERSE LOGISTICS COST MINIMIZATION MODEL FOR THE TREATMENT OF HAZARDOUS WASTES , 2002 .
[423] Ibrahim Zeid,et al. To disassemble or not: a computational methodology for decision making , 2006, J. Intell. Manuf..
[424] Hongchao Zhang,et al. A multi-objective fuzzy graph approach for modular formulation considering end-of-life issues , 2008 .
[425] K. Richter. The extended EOQ repair and waste disposal model , 1996 .
[426] Surendra M. Gupta,et al. Disassembly sequence plan generation using a branch-and-bound algorithm , 2001 .
[427] Manoj Kumar Tiwari,et al. Modelling and planning of the disassembly processes using an enhanced expert Petri net , 2003 .
[428] Ou Tang,et al. Applying the minimum relative entropy method for bimodal distribution in a remanufacturing system , 2008 .
[429] Carol Prahinski,et al. Empirical research opportunities in reverse supply chains , 2006 .
[430] E Iakovou,et al. On the optimal design of the disassembly and recovery processes. , 2009, Waste management.
[431] G. Kannan,et al. Analysis of closed loop supply chain using genetic algorithm and particle swarm optimisation , 2009 .
[432] Surendra M. Gupta,et al. Petri net approach to disassembly process planning for products with complex AND/OR precedence relationships , 2001, Eur. J. Oper. Res..
[433] Ruud H. Teunter,et al. Production , Manufacturing and Logistics The newsboy problem with resalable returns : A single period model and case study , 2005 .
[434] K.K. Pochampally,et al. A Multiphase Fuzzy Logic Approach to Strategic Planning of a Reverse Supply Chain Network , 2008, IEEE Transactions on Electronics Packaging Manufacturing.
[435] Rajesh Srivastava,et al. Inventory buffers in recoverable manufacturing , 1998 .
[436] Stephen Siang Guan Lee,et al. ECoDE – An Environmental Component Design Evaluation Tool , 2002, Engineering with Computers.
[437] Ben Wang,et al. Green Quality Function Deployment III: A Methodology for Developing Environmentally Conscious Products , 2001 .
[438] MengChu Zhou,et al. A systematic approach to design and operation of disassembly lines , 2006, IEEE Trans Autom. Sci. Eng..
[439] John W. Sutherland,et al. Sustainability of the automotive recycling infrastructure: review of current research and identification of future challenges , 2008 .
[440] Maria Laura Mastellone,et al. THE ENVIRONMENTAL PERFORMANCE OF ALTERNATIVE SOLID WASTE MANAGEMENT OPTIONS: A LIFE CYCLE ASSESSMENT STUDY , 2003 .
[441] Markus Klausner,et al. Reverse-Logistics Strategy for Product Take-Back , 2000, Interfaces.
[442] Ieke le Blanc,et al. Product Modularity and the Design of Closed-Loop Supply Chains , 2004 .
[443] Manoj Kumar Tiwari,et al. A collaborative ant colony algorithm to stochastic mixed-model U-shaped disassembly line balancing and sequencing problem , 2008 .
[444] K. Inderfurth,et al. How to set the holding cost rates in average cost inventory models with reverse logistics , 2000 .
[445] Hing Kai Chan,et al. A pro-active and collaborative approach to reverse logistics—a case study , 2007 .
[446] T. Staikos,et al. An end-of-life decision support tool for product recovery considerations in the footwear industry , 2007, Int. J. Comput. Integr. Manuf..
[447] John W. Sutherland,et al. A model for material flows and economicexchanges within the U.S. automotive life cycle chain , 2004 .
[448] Gilvan C. Souza,et al. Performance of static priority rules for shared facilities in a remanufacturing shop with disassembly and reassembly , 2005, Eur. J. Oper. Res..
[449] Dmitry Krass,et al. Dynamic lot sizing with returning items and disposals , 2002 .
[450] Simone Zanoni,et al. Cost performance and bullwhip effect in a hybrid manufacturing and remanufacturing system with different control policies , 2006 .
[451] Hülya Behret,et al. Performance analysis of a hybrid system under quality impact of returns , 2009, Comput. Ind. Eng..
[452] Shahin Rahimifard,et al. A decision-making model for waste management in the footwear industry , 2007 .
[453] Alfred J.D. Lambert,et al. Demand-driven disassembly optimization for electronic products , 2002 .
[454] Julian Scott Yeomans,et al. Supply planning for industrial ecology and remanufacturing under uncertainty: a numerical study of leaded-waste recovery from television disposal , 2002, J. Oper. Res. Soc..
[455] Rajesh Srivastava,et al. Priority scheduling policies for repair shops , 2000 .
[456] Joseph Sarkis,et al. An empirical evaluation of environmental efficiencies and firm performance: Pollution prevention versus end-of-pipe practice , 2001, Eur. J. Oper. Res..
[457] Harold Krikke,et al. Vehicle routing concepts in the closed-loop container network of ARN—a case study , 2006, OR Spectr..
[458] Augusto Q. Novais,et al. Simultaneous design and planning of supply chains with reverse flows: A generic modelling framework , 2010, Eur. J. Oper. Res..
[459] Surendra M. Gupta,et al. Calculating disassembly yields in a multi-criteria decision-making environment for a disassembly-to-order system , 2006 .
[460] Govindan Kannan,et al. A genetic algorithm approach for solving a closed loop supply chain model: A case of battery recycling , 2010 .
[461] S. Minner. Strategic safety stocks in reverse logistics supply chains , 2001 .
[462] P. Daugherty,et al. Reverse logistics: superior performance through focused resource commitments to information technology , 2005 .
[463] I-Lin Wang,et al. Fast Heuristics for Designing Integrated E-Waste Reverse Logistics Networks , 2007, IEEE Transactions on Electronics Packaging Manufacturing.
[464] S. Das,et al. An integer programming model for prescribing material recovery strategies , 2002, Conference Record 2002 IEEE International Symposium on Electronics and the Environment (Cat. No.02CH37273).
[465] Rob A. Zuidwijk,et al. Strategic response to EEE returns: : Product eco-design or new recovery processes? , 2008, Eur. J. Oper. Res..
[466] Shahin Rahimifard,et al. A web-based information system to support end-of-life product recovery , 2004 .
[467] Christopher J. Koroneos,et al. A methodological framework for end-of-life management of electronic products , 2009 .
[468] M. S. Spencer,et al. An evaluation of capacity planning techniques in a remanufacturing environment , 1997 .
[469] Gp Gudrun Kiesmüller,et al. A continuous time inventory model for a product recovery system with multiple options , 2002 .
[470] Rahul Rai,et al. A Petri Net based approach to determine the disassembly strategy of a product , 2002 .
[471] Jing-Rong Li,et al. An object-oriented intelligent disassembly sequence planner for maintenance , 2005, Comput. Ind..
[472] Mitsuo Gen,et al. Network model and optimization of reverse logistics by hybrid genetic algorithm , 2009, Comput. Ind. Eng..
[473] W. Knight,et al. Measuring your ecodesign [end-of-life disassembly] , 2002 .
[474] J. C. Ammons,et al. Modeling and Decision-making for Reverse Production System Design for Carpet Recycling , 2000 .
[475] Keijiro Masui,et al. Applying Quality Function Deployment to environmentally conscious design , 2003 .
[476] Shinichiro Nakamura,et al. A waste input-output life-cycle cost analysis of the recycling of end-of-life electrical home appliances , 2006 .
[477] IBRAHIM ZEID,et al. A case-based reasoning approach to planning for disassembly , 1997, J. Intell. Manuf..
[478] Richard W. Eglese,et al. Combinatorial optimization and Green Logistics , 2010, Ann. Oper. Res..
[479] Albert Wee Kwan Tan,et al. A decision making model to maximise the value of reverse logistics in the computer industry , 2008 .
[480] G. Seliger,et al. Innovative Processes and Tools for Disassembly , 2002 .
[481] Surendra M. Gupta,et al. Ant colony optimization for disassembly sequencing with multiple objectives , 2006 .
[482] N. Aras,et al. Design and analysis of government subsidized collection systems for incentive-dependent returns , 2009 .
[483] Jan Dethloff,et al. Vehicle routing and reverse logistics: The vehicle routing problem with simultaneous delivery and pick-up , 2001, OR Spectr..
[484] Reynaldo Cruz-Rivera,et al. Production , Manufacturing and Logistics Reverse logistics network design for the collection of End-of-Life Vehicles in Mexico , 2009 .
[485] Manoj Kumar Tiwari,et al. Analyzing alternatives in reverse logistics for end-of-life computers: ANP and balanced scorecard approach , 2005, Comput. Ind. Eng..
[486] S. Ryan,et al. Optimal Price and Quantity of Refurbished Products , 2006 .
[487] Tapio Pento. Design for recyclability and the avoidance of waste: the case of printed paper in Germany , 1999 .
[488] Guo Q. Huang,et al. Design for X : concurrent engineering imperatives , 1996 .
[489] Neil Hopkinson,et al. Design for environment analyses applied to rapid manufacturing , 2006 .
[490] Jing-Sheng Song,et al. A Series System with Returns: Stationary Analysis , 2005, Oper. Res..
[491] Gudrun P. Kiesmüller,et al. A new approach for controlling a hybrid stochastic manufacturing/remanufacturing system with inventories and different leadtimes , 2003, Eur. J. Oper. Res..
[492] Matthew J. Realff,et al. Robust reverse production system design for carpet recycling , 2004 .
[493] Bert Bras,et al. Designing for Material Separation: Lessons From Automotive Recycling , 1998 .
[494] Christos Zikopoulos,et al. Optimal location and value of timely sorting of used items in a remanufacturing supply chain with multiple collection sites , 2008 .
[495] Chwen Sheu,et al. A model for reverse logistics entry by third-party providers , 2002 .
[496] Fabrice Mathieux,et al. ReSICLED: a new Recovery Conscious Design method for complex products based on a multicriteria assessment of the recoverability. , 2008 .
[497] MengChu Zhou,et al. Design and implementation of an adaptive process planner for disassembly processes , 2000, IEEE Trans. Robotics Autom..
[498] Luk N. Van Wassenhove,et al. Closed - Loop Supply Chain Models with Product Remanufacturing , 2004, Manag. Sci..
[499] MengChu Zhou,et al. Fuzzy-Petri-net-based disassembly planning considering human factors , 2004, IEEE Transactions on Systems, Man, and Cybernetics - Part A: Systems and Humans.
[500] J. A. Stuart,et al. New metrics and scheduling rules for disassembly and bulk recycling , 2003 .
[501] Surendra M. Gupta,et al. Disassembly of multiple product structures , 1997 .
[502] Dimitris Kiritsis,et al. Multicriteria decision-aid approach for product end-of-life alternative selection , 2004 .
[503] Sytze H. Kalisvaart,et al. Implementing ecological product design , 1995 .
[504] J. Bautista,et al. Modeling the problem of locating collection areas for urban waste management. An application to the metropolitan area of Barcelona , 2006 .
[505] D. Heyman. Optimal disposal policies for a single‐item inventory system with returns , 1977 .
[506] Felix T.S. Chan,et al. Flexible decision modeling of reverse logistics system: A value adding MCDM approach for alternative selection , 2009 .
[507] Grit Walther,et al. Negotiation-based coordination in product recovery networks , 2008 .
[508] Ludo Gelders,et al. EOQ type formulations for controlling repairable inventories , 1992 .
[509] Manoranjan Maiti,et al. A production-inventory model with remanufacturing for defective and usable items in fuzzy-environment , 2009, Comput. Ind. Eng..
[510] Askiner Gungor,et al. A solution approach to the disassembly line balancing problem in the presence of task failures , 2001 .
[511] Rainer Kleber,et al. Optimal control of production and remanufacturing in a simple recovery model with linear cost functions , 2001, OR Spectr..
[512] Gilvan C. Souza,et al. MIXED ASSEMBLY AND DISASSEMBLY OPERATIONS FOR REMANUFACTURING , 2003 .
[513] C. Carter,et al. REVERSE LOGISTICS: A REVIEW OF THE LITERATURE AND FRAMEWORK FOR FUTURE INVESTIGATION , 1998 .
[514] Tsai C. Kuo. Enhancing disassembly and recycling planning using life-cycle analysis , 2006 .
[515] Joseph R. Fiksel,et al. Design for environment : creating eco-efficient products and processes , 1996 .
[516] Steven J Skerlos,et al. Multi-criteria decision-making for optimization of product disassembly under multiple situations. , 2003, Environmental science & technology.
[517] Leigh Holloway,et al. Materials selection for optimal environmental impact in mechanical design , 1998 .
[518] Hokey Min,et al. The spatial and temporal consolidation of returned products in a closed-loop supply chain network , 2006, Comput. Ind. Eng..
[519] J.A.S. Williams,et al. A review of electronics demanufacturing processes , 2006 .
[520] Joseph W.K. Chan,et al. Product end-of-life options selection: grey relational analysis approach , 2008 .
[521] MengChu Zhou,et al. An integrated approach to disassembly planning and demanufacturing operation , 2001, IEEE Trans. Robotics Autom..
[522] Wen-Hsien Tsai,et al. Treatment and recycling system optimisation with activity-based costing in WEEE reverse logistics management: an environmental supply chain perspective , 2009 .
[523] Dong-Ho Lee,et al. A two-stage heuristic for disassembly scheduling with assembly product structure , 2004, J. Oper. Res. Soc..
[524] Florin Gheorghe Filip,et al. Evolutionary Programming in Disassembly Decision Making , 2008 .
[525] Geraldo Ferrer,et al. Value of information in remanufacturing complex products , 2004 .
[526] Vaidyanathan Jayaraman,et al. Product acquisition management: Current industry practice and a proposed framework , 2000 .
[527] S. Zanoni,et al. Economic evaluation of disassembly processes in remanufacturing systems , 2004 .
[528] Chih-Hsing Chu,et al. Economical green product design based on simplified computer-aided product structure variation , 2009, Comput. Ind..
[529] Paul Xirouchakis,et al. Disassembly sequencing with imprecise data: A case study , 2003 .
[530] E. Kongar,et al. A multiple objective tabu search approach for end-of-life product disassembly , 2009, Int. J. Adv. Oper. Manag..
[531] Xiuli Qu,et al. An analytical model for reverse automotive production planning and pricing , 2008, Eur. J. Oper. Res..
[532] Dong-Ho Lee,et al. A branch and bound algorithm for disassembly scheduling with assembly product structure , 2009, J. Oper. Res. Soc..
[533] H. Kaebernick,et al. A Method for Sequencing the Disassembly of Products , 2000 .
[534] Maurizio Bevilacqua,et al. Development of a sustainable product lifecycle in manufacturing firms: a case study , 2007 .
[535] Sérgio Fernando Mayerle,et al. Designing minimum-cost recycling collection networks with required throughput , 2008 .
[536] Ian M. Langella. Heuristics for demand-driven disassembly planning , 2007, Comput. Oper. Res..
[537] Shaligram Pokharel,et al. A hybrid approach using ISM and fuzzy TOPSIS for the selection of reverse logistics provider , 2009 .
[538] Patroklos Georgiadis,et al. The Impact of Product Lifecycle on Capacity Planning of Closed‐Loop Supply Chains with Remanufacturing , 2006 .
[539] A. Weigl-Seitz,et al. On strategies and solutions for automated disassembly of electronic devices , 2006 .
[540] Marc A. Rosen,et al. The economic order quantity repair and waste disposal model with entropy cost , 2008, Eur. J. Oper. Res..
[541] Surendra M. Gupta,et al. Design for Disassembly, Reuse, and Recycling , 2000 .
[542] Ke‐Zhang Chen. Development of integrated design for disassembly and recycling in concurrent engineering , 2001 .
[543] Der-Horng Lee,et al. Dynamic network design for reverse logistics operations under uncertainty , 2009 .