[1]. Park, W. R., Chapin, W. B. (1992). “Construction bidding: Strategic pricing for profit” ,Wiley, New York, 1992.
[2]. Alkass, S., Mazerolle, M., Harris, F. , (1996) ‘‘Construction delay analysis techniques’’ ,
Construction Management Economics., Vol. 14, No. 5, pp. 375–394, Doi:
10.1080/014461996373250.
[3]. Sonmez, R , Bettemir, O. H ,(2012) “A hybrid genetic algorithm for the discrete time–cost trade-off problem”,
Expert Systems with Applications, Vol 39, No 13, 11428–11434, Doi:
10.1016/j.eswa.2012.04.019.
[4]. PMI. (2013), "A guide to the project management body of knowledge: PMBOK Guide.", 5th ed. USA: Project Management Institute Inc.
[5]. Goldratt, E. M. , (1997). “Critical Chain”, The North River Press Publishing Corporation, Great Barrington
[6]. Rand , K. , (2000), "Critical chain: the Theory of constraints applied to project management" ,
International Journal of Project Management, Vol 18, No 3, 173-177, Doi:
10.1016/S0263-7863(99)00019-8.
[7]. Raz, T, Barnes, R, Dvir, D, (2003), "A critical look at critical chain project management",
Project management journal, Vol 34, No 4, 24-32, Doi:
10.1109/EMR.2004.25048.
[8]. Kuchta, D ," The critical chain method in project management-A formal description", Badania Operacyjneide I Decyzje, Vol 1, 37-51, 2004.
[9]. Leach, L, (2000), "Critical chain project management improves project performance", Advanced Project Institute.
[10]. Herroelen, W, Leus, R, Demeulemeester, E, (2002), "Critical chain project scheduling do not oversimplify", Project Management Journal, Vol 33, No 4, 48-60.
[11]. Juring, J, (2004), "Benefits of a critical chain – a System Dynamics based study", Second World Conference on POM and 15th Annual POM Conference, Cancun, Mexico.
[12]. Trietsch Dan, (2005), "Why a Critical Path by Any Other Name Would Smell Less Sweet", Project Management Institute, Vol 36, No1, 27-36
[13]. Shen, L, Chua, D, (2008), "An Investigation of Critical Chain and Lean Project Scheduling",16th Annual Conference of the International Group for Lean Construction, United States.
[14]. startton, R, (2009), "Critical Chain Project Management Theory and Practice", POMS 20th Annual Conference, USA.
[15]. Wei-Xin, W, Xu,W, Xian-Long, G, Lei, D, (2014) "Multi-objective optimization model for multi-project scheduling on critical chain",
Advances in Engineering Software, Vol 68, 33–39, Doi:
10.1016/j.advengsoft.2013.11.004.
[16]. Ghoddousi, P., Ansari, R. & Makui, A., (2016), “A risk-oriented buffer allocation model based on critical chain project management”,
KSCE Journal of Civil Engineering, 1-13, Doi:10.1007/s12205-016-0039-y.
[17]. Vanhoucke, M. (2016). “Buffer management” Integrated Project Management Sourcebook. Springer International Publishing, pp. 155-193.
[18]. Singh, A, (2013), “Resource Constrained Multi-Project Scheduling with Priority Rules & Analytic Hierarchy Process”, 24th DAAAM International Symposium on Intelligent Manufacturing and Automation, Zadar, Crotia.
[19]. Shou, Y, Xiang, W, Li, Y, Yao, W, (2013), "A multi-agent evolutionary algorithm for the resource-constrained project portfolio selection and scheduling problem", Conference: Proceedings of the 15th annual conference companion on Genetic and evolutionary computation, Amesterdam, Netherland.
[20]. Blazewicz, J, Lenstra, J, Rinnooy Kan, A. (1983), "Scheduling subject to resource constraints: classification and complexity", Discrete Applied Mathematics, Vol 5, No 1, 11–24, Doi:
10.1016/0166-218X(83)90012-4.
[21]. Chen, T. and Zhou, G., (2013), “Research on project scheduling problem with resource constraints.”, Journal of Software, Vol. 8, No. 8, pp. 2058-2063, Doi: 10.4304/jsw.8.8.2058-2063.
[22].Gonzalez-Pardo, A. and Camacho, D. (2014). “A new CSP graph-based representation to resource-constrained project scheduling problem.” 2014 IEEE Congress on Evolutionary Computation (CEC). IEEE, pp. 344-351, DOI: 10.1109/CEC.2014.6900543.
[23].Giran, O, Temur, R, Bekdas, G, (2017), “Resource Constrained Project Scheduling by Harmony Search Algorithm”,
KSCE Journal of Civil Engineering, Vol 21, No 2, pp. 479-487, Doi: 10.1007/s12205-017-1363-6.
[24]. Taheri Amiri, M.J, Haghighi, F, Eshtehardian, E, Abessi, O, (2017a), “
Optimization of Time, Cost, and Quality in Critical Chain Method Using Simulated Annealing”, International Journal of Engineering, Vol 30, No 5, pp. 705-713, Doi: 10.5829/idosi.ije.2017.30.05b.00.
[25]. Afruzi, E.N., Najafi, A.A., Roghanian, E., Mazinani, M. (2014) “A Multi-Objective Imperialist Competitive Algorithm for solving discrete time, cost and quality trade-off problems with mode-identity and resourceconstrained situations”, Computers & Operations Research, No. 50, pp. 80 – 96.
[26]. Tavana, M, Abtahi, A.R, Khalili-Damghani, K, (2014) “A new multi-objective multi-mode model for solving preemptive time–cost–quality trade-off project scheduling problems”, Expert System with Applications, Vol 41, Issue 4, 1830-1846.
[27]. Mungle, S, Benyoucef, L, Son, Y.J, Tiwari, M.K, (2013) “A fuzzy clustering-based genetic algorithm approach for time–cost–quality trade-off problems:A case study of highway construction project”, Engineering Applications of Artificial Intelligence, Vol 26, 1953–1966.
[28]. Monghasemi, S, Nikoo, M.R, Khaksar, M.A, Adamowski, F,J, (2015) “A Novel Multi Criteria Decision Making Model for Optimizing Time-Cost-Quality Trade-off Problems in Construction Projects”, Expert System with Applications, Vol 42, Issue 6, 3089-3104.
[29]. Abdul Razaque, Bach,C, Salama, N, Alotaibi, A, (2012) " Fostering Project Scheduling and Controlling Risk Managemen", International Journal of Business and Social Science, Vol. 3, No. 14, 118-127.
[30]. Huang, C,L, Chen, H,C, Li, R,K, Tsai, C,H, (2012) " A Comparative Study of the Critical Chain and PERT Planning Methods: No Bad Human Behaviors Involved", International Journal of Academic Research in Business and Social Sciences, Vol. 2, No. 8, 379-394.
[31]. Pawiński, G, Sapiecha, K, (2012), "Resource Allocation Optimization in Critical Chain Method",Annales UMCS Informatica, AI XII, 1 ,17–29.
[32]. Georgy, M,E, Marzook, A,A, Ibrahim, M,E, (2013) "Applicability of Critical Chain Scheduling in Construction Projects: An Investigation in the Middle East", The 19th Cib World Building Congress, Queensland University of Technology, 1-13.
[33]. Tulasi, CH, Rao,A.R, (2014) "Multi-Objective Resource Constrained Project Scheduling Using Critical Chain Project Management Approach", International Journal of Innovative Research in Science,Engineering and Technology, Vol. 3, Issue 7, 14345-14352
[34]. Taheri Amiri, M.J, Haghighi, F, Eshtehardian, E, Hematian, M, Kordi, H, (2017b), “Optimization of Time and Costs in Critical Chain Method Using Genetic Algorithm ”,
Journal of Engineering and Applied Sciences, Vol 12, No 4, 871-876, Doi:
10.3923/jeasci.2017.871.876.
[35]. Taheri Amiri, M.J, Haghighi, F, Eshtehardian, E, Abessi, O, (2018), “Time-Cost-Quality trade off in critical chain with multi-mode activities by using multio objective particle swarm optimization”, Journal of Structural and Construction Engineering, Doi: 10.22065/JSCE.2017.92752.1265 (in Persian)
[36]. Taheri Amiri, M.J, Haghighi, F, Eshtehardian, E, Abessi, O, (2018), “Multi-project time-cost optimization in critical chain with resource constraints”, KSCE Journal of Civil Engineering (in press)
[37]. Roghanian, E, Alipour, M, Rezaei, M., (2018), “An improved fuzzy critical chain approach in order to face uncertainty in project scheduling”, International Journal of Construction Management, Vol. 18, No. 1, 1-13.
[38]. Blazewicz, J., Lenstra, J., Rinnooy Kan, A., (1983), "Scheduling subject to resource constraints: classification and complexity", Discrete Applied Mathematics, Vol. 5, 11–24.
[39]. K.E. Parsopoulos, and M.N. Vrahatis, (2002), “Recent Approach to Global Optimization Problems through Particle Swarm Optimization”, Neural Copmuting, Vol. 1, No. 2-3, 235-306.