Agnetis, A., Pacciarelli, D., & Pacifici, A. (2007). Multi-agent single machine scheduling. Annals of Operations Research, 150(1), 3-15. Cheng, S. R. (2014). Scheduling two-agents with a time-dependent deterioration to minimize the minsum earliness measures. Asia-Pacific Journal of Operational Research, 31(05), 1450040. Cheng, T. E., Ng, C. T., & Yuan, J. J. (2006). Multi-agent scheduling on a single machine to minimize total weighted number of tardy jobs. Theoretical Computer Science, 362(1), 273-281. Cowling, P. I., Ouelhadj, D., & Petrovic, S. (2004). Dynamic scheduling of steel casting and milling using multi-agents. Production Planning & Control, 15(2), 178-188. Eren, T. (2009). Minimizing the total weighted completion time on a single machine scheduling with release dates and a learning effect. Applied Mathematics and Computation, 208(2), 355-358.
Hart, E., Ross, P., & Corne, D. (2005). Evolutionary scheduling: A review.Genetic Programming and Evolvable Machines, 6(2), 191-220.
Huang, C. J., & Liao, L. M. (2012). A multi-agent-based negotiation approach for parallel machine scheduling with multi-objectives in an electro-etching process. International Journal of Production Research, 50(20), 5719-5733. Janiak, A., & Rudek, R. (2008). A new approach to the learning effect: Beyond the learning curve restrictions. Computers & Operations Research, 35(11), 3727-3736. Ji, M., He, Y., & Cheng, T. E. (2007). Single-machine scheduling with periodic maintenance to minimize makespan. Computers & operations research, 34(6), 1764-1770.
Journal of Military and Information Science
Corresponding Author: Banu Çalış ,Vol.4, No.1
33
Calıs, B., (2016). Agent-Based Simulation Model for Profit Maximization, Journal of Military and Information Science,
Vol4(1),26-33.
Liao, C. J., & Chen, W. J. (2003). Single-machine scheduling with periodic maintenance and nonresumable jobs. Computers & Operations Research,30(9), 1335-1347. Madejski, J. (2007). Survey of the agent-based approach to intelligent manufacturing. Journal of Achievements in Materials and Manufacturing Engineering, 21(1), 67-70.
Meirina, C., Levchuk, G. M., & Pattipati, K. R. (2003, June). A multi-agent decision framework for DDD-III environment. In 2002 International Command and Control Research and Technology Symposium, Monterey, CA.
Mosheiov, G., & Yovel, U. (2006). Minimizing weighted earliness–tardiness and due-date cost with unit processing-time jobs. European Journal of Operational Research, 172(2), 528-544.
Nong, Q. Q., Cheng, T. C. E., & Ng, C. T. (2011). Two-agent scheduling to minimize the total cost. European Journal of Operational Research, 215(1), 39-44.
Shaw, M. J., & Whinston, A. B. (1983). Distributed planning in cellular flexible manufacturing systems. Management Information Research Center Technical Report. Sousa, P., & Ramos, C. (1999). A distributed architecture and negotiation protocol for scheduling in manufacturing systems. Computers in industry,38(2), 103-113. Walker, S. S., Brennan, R. W., & Norrie, D. H. (2005). Holonic job shop scheduling using a multiagent system. Intelligent Systems, IEEE, 20(1), 50-57.
Wooldridge, M., & Jennings, N. R. (1995). Intelligent agents: Theory and practice. The knowledge engineering review, 10(02), 115-152.
Wu, C. C., Wu, W. H., Chen, J. C., Yin, Y., & Wu, W. H. (2013). A study of the single-machine two-agent scheduling problem with release times. Applied Soft Computing, 13(2), 998-1006.
Yin, Y., Wu, W. H., Cheng, S. R., & Wu, C. C. (2012). An investigation on a two-agent single-machine scheduling problem with unequal release dates.Computers & Operations Research, 39(12), 3062-3073.
Yu, X., Zhang, Y., Xu, D., & Yin, Y. (2013). Single machine scheduling problem with two synergetic agents and piece-rate maintenance. Applied Mathematical Modelling, 37(3), 1390-1399. Zhang, L., Lu, L., & Yuan, J. (2009). Single machine scheduling with release dates and rejection. European Journal of Operational Research, 198(3), 975-978.
Thank you for copying data from http://www.arastirmax.com
