How to cite this paper
Fera, M., Macchiaroli, R., Fruggiero, F & Lambiase, A. (2020). A modified tabu search algorithm for the single-machine scheduling problem using additive manufacturing technology.International Journal of Industrial Engineering Computations , 11(3), 401-414.
Refrences
Atzeni, E., & Salmi, A. (2012). Economics of additive manufacturing for end-usable metal parts. The International Journal of Advanced Manufacturing Technology, 62(9-12), 1147-1155.
Chergui, A., Hadj-Hamou, K., & Vignat, F. (2018). Production scheduling and nesting in additive manufacturing. Computers & Industrial Engineering, 126, 292-301.
Costabile, G., Fera, M., Fruggiero, F., Lambiase, A., & Pham, D. (2017). Cost models of additive manufacturing: A literature review. International Journal of Industrial Engineering Computations, 8(2), 263-283.
Dilberoglu, U. M., Gharehpapagh, B., Yaman, U., & Dolen, M. (2017). The role of additive manufacturing in the era of industry 4.0. Procedia Manufacturing, 11, 545-554.
Fera, M., Fruggiero, F., Lambiase, A., & Macchiaroli, R. (2016). State of the art of additive manufacturing: Review for tolerances, mechanical resistance and production costs. Cogent Engineering, 3(1), 1261503.
Fera, M., Macchiaroli, R., Fruggiero, F., & Lambiase, A. (2018). A new perspective for production process analysis using additive manufacturing—complexity vs production volume. The International Journal of Advanced Manufacturing Technology, 95(1-4), 673-685.
Fruggiero, F., Riemma, S., Ouazene, Y., Macchiaroli, R., & Guglielmi, V. (2016). Incorporating the human factor within manufacturing dynamics. IFAC-PapersOnLine, 49(12), 1691-1696.
Fera, M., Costabile, G., Fruggiero, F., Lambiase, A., & Pham, D. T. (2017). A new mixed production cost allocation model for additive manufacturing (MiProCAMAM). International Journal of Advanced Manufacturing Technology, 92(9-12), 42754291.
Fera, M., Fruggiero, F., Macchiaroli R., Lambiase, A., Todisco, V. (2018). A modified genetic algorithm for time and cost optimization of an additive manufacturing single-machine scheduling. International Journal of Industrial Engineering Computations, 9(1), pp. 1-16.
Glover, F., & Laguna, M. (1997a). General purpose heuristics for integer programming—Part I. Journal of Heuristics, 2(4), 343-358.
Glover, F., & Laguna, M. (1997b). General purpose heuristics for integer programming—part II. Journal of Heuristics, 3(2), 161-179.
Jin, Y., Du, J., & He, Y. (2017). Optimization of process planning for reducing material consumption in additive manufacturing. Journal of Manufacturing Systems, 44, 65-78.
Khajavi, S. H., Partanen, J., & Holmström, J. (2014). Additive manufacturing in the spare parts supply chain. Computers in Industry, 65(1), 50-63.
Kucukkoc, I. (2019). MILP models to minimise makespan in additive manufacturing machine scheduling problems. Computers & Operations Research, 105, 58-67.
Li, Q., Kucukkoc, I., & Zhang, D. Z. (2017). Production planning in additive manufacturing and 3D printing. Computers & Operations Research, 83, 157-172.
Newman, S. T., Zhu, Z., Dhokia, V., & Shokrani, A. (2015). Process planning for additive and subtractive manufacturing technologies. CIRP Annals-Manufacturing Technology, 64(1), 467-470.
Pour, M. A., Zanardini, M., Bacchetti, A., & Zanoni, S. (2016). Additive manufacturing impacts on productions and logistics systems. IFAC-Papers On Line, 49(12), 1679-1684.
Ransikarbum, K., Ha, S., Ma, J., & Kim, N. (2017). Multi-objective optimization analysis for part-to-Printer assignment in a network of 3D fused deposition modeling. Journal of Manufacturing Systems, 43, 35-46.
Ren, L., Sparks, T., Ruan, J., & Liou, F. (2008). Process planning strategies for solid freeform fabrication of metal parts. Journal of Manufacturing Systems, 27(4), 158-165.
Rickenbacher, L., Spierings, A., & Wegener, K. (2013b) An integrated cost-model for selective laser melting (SLM). Rapid Prototyp Journal, 19(3), 208–214
Ruffo, M., & Hague, R. (2007). Cost estimation for rapid manufacturing’simultaneous production of mixed components using laser sintering. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 221(11), 1585-1591.
Strong, D., Kay, M., Conner, B., Wakefield, T., & Manogharan, G. (2018). Hybrid manufacturing–integrating traditional manufacturers with additive manufacturing supply chain. Additive Manufacturing, 21, 159-173.
Verboeket, V., & Krikke, H. (2019). The disruptive impact of additive manufacturing on supply chains: A literature study, conceptual framework and research agenda. Computers in Industry, 111, 91-107.
Witherell, P., Lu, Y., & Jones, A. (2017). Additive manufacturing: A trans-disciplinary experience. In Transdisciplinary Perspectives on Complex Systems (pp. 145-175). Springer International Publishing.
Zhang, Y., Gupta, R. K., & Bernard, A. (2016). Two-dimensional placement optimization for multi-parts production in additive manufacturing. Robotics and Computer-Integrated Manufacturing, 38, 102-117.
Zhu, Z., Dhokia, V., & Newman, S. T. (2017). A novel decision-making logic for hybrid manufacture of prismatic components based on existing parts. Journal of Intelligent Manufacturing, 28(1), 131-148.
Chergui, A., Hadj-Hamou, K., & Vignat, F. (2018). Production scheduling and nesting in additive manufacturing. Computers & Industrial Engineering, 126, 292-301.
Costabile, G., Fera, M., Fruggiero, F., Lambiase, A., & Pham, D. (2017). Cost models of additive manufacturing: A literature review. International Journal of Industrial Engineering Computations, 8(2), 263-283.
Dilberoglu, U. M., Gharehpapagh, B., Yaman, U., & Dolen, M. (2017). The role of additive manufacturing in the era of industry 4.0. Procedia Manufacturing, 11, 545-554.
Fera, M., Fruggiero, F., Lambiase, A., & Macchiaroli, R. (2016). State of the art of additive manufacturing: Review for tolerances, mechanical resistance and production costs. Cogent Engineering, 3(1), 1261503.
Fera, M., Macchiaroli, R., Fruggiero, F., & Lambiase, A. (2018). A new perspective for production process analysis using additive manufacturing—complexity vs production volume. The International Journal of Advanced Manufacturing Technology, 95(1-4), 673-685.
Fruggiero, F., Riemma, S., Ouazene, Y., Macchiaroli, R., & Guglielmi, V. (2016). Incorporating the human factor within manufacturing dynamics. IFAC-PapersOnLine, 49(12), 1691-1696.
Fera, M., Costabile, G., Fruggiero, F., Lambiase, A., & Pham, D. T. (2017). A new mixed production cost allocation model for additive manufacturing (MiProCAMAM). International Journal of Advanced Manufacturing Technology, 92(9-12), 42754291.
Fera, M., Fruggiero, F., Macchiaroli R., Lambiase, A., Todisco, V. (2018). A modified genetic algorithm for time and cost optimization of an additive manufacturing single-machine scheduling. International Journal of Industrial Engineering Computations, 9(1), pp. 1-16.
Glover, F., & Laguna, M. (1997a). General purpose heuristics for integer programming—Part I. Journal of Heuristics, 2(4), 343-358.
Glover, F., & Laguna, M. (1997b). General purpose heuristics for integer programming—part II. Journal of Heuristics, 3(2), 161-179.
Jin, Y., Du, J., & He, Y. (2017). Optimization of process planning for reducing material consumption in additive manufacturing. Journal of Manufacturing Systems, 44, 65-78.
Khajavi, S. H., Partanen, J., & Holmström, J. (2014). Additive manufacturing in the spare parts supply chain. Computers in Industry, 65(1), 50-63.
Kucukkoc, I. (2019). MILP models to minimise makespan in additive manufacturing machine scheduling problems. Computers & Operations Research, 105, 58-67.
Li, Q., Kucukkoc, I., & Zhang, D. Z. (2017). Production planning in additive manufacturing and 3D printing. Computers & Operations Research, 83, 157-172.
Newman, S. T., Zhu, Z., Dhokia, V., & Shokrani, A. (2015). Process planning for additive and subtractive manufacturing technologies. CIRP Annals-Manufacturing Technology, 64(1), 467-470.
Pour, M. A., Zanardini, M., Bacchetti, A., & Zanoni, S. (2016). Additive manufacturing impacts on productions and logistics systems. IFAC-Papers On Line, 49(12), 1679-1684.
Ransikarbum, K., Ha, S., Ma, J., & Kim, N. (2017). Multi-objective optimization analysis for part-to-Printer assignment in a network of 3D fused deposition modeling. Journal of Manufacturing Systems, 43, 35-46.
Ren, L., Sparks, T., Ruan, J., & Liou, F. (2008). Process planning strategies for solid freeform fabrication of metal parts. Journal of Manufacturing Systems, 27(4), 158-165.
Rickenbacher, L., Spierings, A., & Wegener, K. (2013b) An integrated cost-model for selective laser melting (SLM). Rapid Prototyp Journal, 19(3), 208–214
Ruffo, M., & Hague, R. (2007). Cost estimation for rapid manufacturing’simultaneous production of mixed components using laser sintering. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 221(11), 1585-1591.
Strong, D., Kay, M., Conner, B., Wakefield, T., & Manogharan, G. (2018). Hybrid manufacturing–integrating traditional manufacturers with additive manufacturing supply chain. Additive Manufacturing, 21, 159-173.
Verboeket, V., & Krikke, H. (2019). The disruptive impact of additive manufacturing on supply chains: A literature study, conceptual framework and research agenda. Computers in Industry, 111, 91-107.
Witherell, P., Lu, Y., & Jones, A. (2017). Additive manufacturing: A trans-disciplinary experience. In Transdisciplinary Perspectives on Complex Systems (pp. 145-175). Springer International Publishing.
Zhang, Y., Gupta, R. K., & Bernard, A. (2016). Two-dimensional placement optimization for multi-parts production in additive manufacturing. Robotics and Computer-Integrated Manufacturing, 38, 102-117.
Zhu, Z., Dhokia, V., & Newman, S. T. (2017). A novel decision-making logic for hybrid manufacture of prismatic components based on existing parts. Journal of Intelligent Manufacturing, 28(1), 131-148.