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Balkau, B.J. (1975). A financial model for public works programmes. National ASOR Conference. Sydney: ASOR.BalkauB.J.1975A financial model for public works programmesNational ASOR ConferenceSydneyASORSearch in Google Scholar
Banki M.T. & Esmaeili B. (2009), The Effects of Variability of the Mathematical Equations and Project Categorizations on Forecasting S-Curves at Construction Industry. International Journal of Civil Engineering. Vol. 7(4), 258-270.BankiM.T.EsmaeiliB.2009The Effects of Variability of the Mathematical Equations and Project Categorizations on Forecasting S-Curves at Construction IndustryInternational Journal of Civil Engineering74258270Search in Google Scholar
Blyth, K. & Kaká, A.P. (2006). A novel multiple linear regression model for forecasting S-curves. Engineering. Construction and Architectural Management. Vol. 13 (1): 82-95.BlythK.KakáA.P.2006A novel multiple linear regression model for forecasting S-curves. EngineeringConstruction and Architectural Management1318295Search in Google Scholar
Bromilow, F.J. & Davies, V.F. (1978). Financial planning and control of large programmes of public works. In Second International Symposium on Organisation and Management of Construction, Organising and Managing Construction. Technion, Israel Institute of Technology, Haifa, Israel. Vol. 2: 119-133.BromilowF.J.DaviesV.F.1978Financial planning and control of large programmes of public worksSecond International Symposium on Organisation and Management of Construction, Organising and Managing ConstructionTechnion, Israel Institute of TechnologyHaifa, Israel2119133Search in Google Scholar
Carlberg, C. (2012). Análisis estadístico con Excel. Madrid: Ediciones Anaya Multimedia.CarlbergC.2012Análisis estadístico con ExcelMadridEdiciones Anaya MultimediaSearch in Google Scholar
Chan, D.W.M. & Kumaraswamy, M.M. (1995). A Study of the Factors Affecting Construction Durations in Hong Kong. Construction Management and Economics, Vol. 13: 319-333.ChanD.W.M.KumaraswamyM.M.1995A Study of the Factors Affecting Construction Durations in Hong KongConstruction Management and Economics13319333Search in Google Scholar
Del Castillo Puente, A. M. (2008). Axiomas Fundamentales de la Investigación de Mercados. La Coruña: Netbiblo, S.L.Del Castillo PuenteA. M.2008Axiomas Fundamentales de la Investigación de MercadosLa Coruña: Netbiblo, S.LSearch in Google Scholar
Granger, W. J. (1979). Seasonality: Causation, Interpretation, and Implications. Available at: http://www.nber.org/chapters/c3896 [Accessed on 21 November 2018].GrangerW. J.1979Seasonality: Causation, Interpretation, and ImplicationsAvailable athttp://www.nber.org/chapters/c3896[Accessed on 21 November 2018]Search in Google Scholar
El-Rayes, K., and Moselhi, O. (2001). Impact of rainfall on the productivity of highway construction. Journal of Construction Engineering and Management, ASCE, 127(2): 125-131.El-RayesK.MoselhiO.2001Impact of rainfall on the productivity of highway constructionJournal of Construction Engineering and Management, ASCE1272125131Search in Google Scholar
Heaps, A. & Domingo, N. (2014). Forecasting cash flow expenditure at pre-tender stage: Case studies in New Zealand construction projects. Available at: http://www.irbnet.de/daten/iconda/CIB_DC27661.pdf [Accessed on 21 November 2018].HeapsA.DomingoN.2014Forecasting cash flow expenditure at pre-tender stage: Case studies in New Zealand construction projectsAvailable athttp://www.irbnet.de/daten/iconda/CIB_DC27661.pdf[Accessed on 21 November 2018]Search in Google Scholar
Kaká, A.P. & Price, A.D.F. (1993). Modelling standard cost commitment curves for contractors. Construction Management and Economics, Vol. 11: 271-283.KakáA.P.PriceA.D.F.1993Modelling standard cost commitment curves for contractorsConstruction Management and Economics11271283Search in Google Scholar
Kenley, R. & Wilson, O.D. (1989). A Construction Project Net Cash Flow Model. Construction Management and Economics, Vol. 7: 3-18.KenleyR.WilsonO.D.1989A Construction Project Net Cash Flow ModelConstruction Management and Economics7318Search in Google Scholar
Khosrowshahi, F. & Kaká, A. (2007). A decision support model for construction cash flow management. Computer-Aided Civil and Infraestructure Engeneering, Vol. 22: 527-539.KhosrowshahiF.KakáA.2007A decision support model for construction cash flow managementComputer-Aided Civil and Infraestructure Engeneering22527539Search in Google Scholar
Koehn, E. & Brown, G. (1985). Climatic Effects on Construction. Journal of Construction Engineering and Management, ASCE, 111(2), 129-137.KoehnE.BrownG.1985Climatic Effects on ConstructionJournal of Construction Engineering and Management, ASCE1112129137Search in Google Scholar
Odabasi, E. (2009). Models for Estimating Construction Duration: An Application for Selected Building on the Metu Campus. (Unpublished MSc Thesis). School of Natural and Applied Sciences of Middle East Technical University. Available at: https://etd.lib.metu.edu.tr/upload/12610696/index.pdf [Accessed on 21 November 2018].OdabasiE.2009Models for Estimating Construction Duration: An Application for Selected Building on the Metu Campus. (Unpublished MSc Thesis)School of Natural and Applied Sciences of Middle East Technical UniversityAvailable athttps://etd.lib.metu.edu.tr/upload/12610696/index.pdf[Accessed on 21 November 2018]Search in Google Scholar
Ostojic, N. & Radujkovic, M. (2012). S-curve modelling in early phases of construction projects. GRADEVINAR, Vol. 64 (8): 647-654.OstojicN.RadujkovicM.2012S-curve modelling in early phases of construction projectsGRADEVINAR648647654Search in Google Scholar
Peer, S. (1982). Application of cost-flow forecasting models. Journal of the Construction Division, ASCE, Proc. Paper 17128, Vol. 108 (CO2): 226-232.PeerS.1982Application of cost-flow forecasting models. Journal of the Construction Division, ASCEProc. Paper 17128108CO2226232Search in Google Scholar
Skitmore, M.R. (1992). Parameter prediction for cash Flow Forecasting Models. Construction Management and Economics, Vol. 10 (5): 397-413.SkitmoreM.R.1992Parameter prediction for cash Flow Forecasting ModelsConstruction Management and Economics105397413Search in Google Scholar
Tucker, S.N. & Rahilly, M. (1982). A single project cash flow model for a microcomputer. Building Economist, December, Vol. 21 (3): 109-115.TuckerS.N.RahillyM.1982A single project cash flow model for a microcomputerBuilding Economist, December213109115Search in Google Scholar
Valderrama, F. & Guadalupe, R. (2013). Predimensionado de tiempos mediante curvas “S” y duraciones en función del coste. In 17th International Congress on Project Management and Engineering. Logroño, 17-19th July 2013. AEIPRO: 279-291. Logroño. Spain.ValderramaF.GuadalupeR.2013Predimensionado de tiempos mediante curvas “S” y duraciones en función del coste17th International Congress on Project Management and EngineeringLogroño, 17-19th July 2013. AEIPRO279291Logroño. SpainSearch in Google Scholar
Wiliams, R.C. (2008). The Developement of Mathematical Models for Preliminary Prediction of Highway Construction Duration. (Unpublished Thesis). Dissertation submitted to the faculty of Virginia Polytechnic Institute and State University: 160. Blacksburg, Virginia, EE.UU. Available at: https://vtechworks.lib.vt.edu/handle/10919/29483 [Accessed on 21 November 2018].WiliamsR.C.2008The Developement of Mathematical Models for Preliminary Prediction of Highway Construction Duration. (Unpublished Thesis)Dissertation submitted to the faculty of Virginia Polytechnic Institute and State University: 160Blacksburg, VirginiaEE.UU. Available athttps://vtechworks.lib.vt.edu/handle/10919/29483[Accessed on 21 November 2018]Search in Google Scholar