Cite

Abbondati, F., Lamberti, R., & Capaldo, F. S. (2016). Linear scheduling analysis toolkit for road and airports construction projects. ARPN Journal of Engineering and Applied Sciences, 11(11), pp. 6863–6874. AbbondatiF. LambertiR. CapaldoF. S. 2016 Linear scheduling analysis toolkit for road and airports construction projects ARPN Journal of Engineering and Applied Sciences 11 11 6863 6874 Search in Google Scholar

Ammar, M. A. (2013). LOB and CPM integrated method for scheduling repetitive projects. Journal of Construction Engineering and Management, 139(1), pp. 44–50. AmmarM. A. 2013 LOB and CPM integrated method for scheduling repetitive projects Journal of Construction Engineering and Management 139 1 44 50 10.1061/(ASCE)CO.1943-7862.0000569 Search in Google Scholar

Arditi, D., & Albulak, M. Z. (1986). Line-of-balance scheduling in pavement construction. Journal of Construction Engineering and Management, 112(3), pp. 411–424. ArditiD. AlbulakM. Z. 1986 Line-of-balance scheduling in pavement construction Journal of Construction Engineering and Management 112 3 411 424 10.1061/(ASCE)0733-9364(1986)112:3(411) Search in Google Scholar

Arditi, D., Tokdemir, O. B., & Suh, K. (2002). Challenges in line-of-balance scheduling. Journal of Construction Engineering and Management, 128(6), pp. 545–556. ArditiD. TokdemirO. B. SuhK. 2002 Challenges in line-of-balance scheduling Journal of Construction Engineering and Management 128 6 545 556 10.1061/(ASCE)0733-9364(2002)128:6(545) Search in Google Scholar

Assaf, S. A., & Al-Hejji, S. (2006). Causes of delay in large construction projects. International Journal of Project Management, 24(4), pp. 349–357. AssafS. A. Al-HejjiS. 2006 Causes of delay in large construction projects International Journal of Project Management 24 4 349 357 10.1016/j.ijproman.2005.11.010 Search in Google Scholar

Bhokha, S., & Ogunlana, S. O. (1999). Application of artificial neural network to forecast construction duration of buildings at the predesign stage. Engineering, Construction and Architectural Management, 6(2), pp. 133–144. BhokhaS. OgunlanaS. O. 1999 Application of artificial neural network to forecast construction duration of buildings at the predesign stage Engineering, Construction and Architectural Management 6 2 133 144 10.1108/eb021106 Search in Google Scholar

Boussabaine, A. H. (2001). Neurofuzzy modelling of construction projects’ duration I: principles. Engineering, Construction and Architectural Management, 8(2), pp. 104–113 BoussabaineA. H. 2001 Neurofuzzy modelling of construction projects’ duration I: principles Engineering, Construction and Architectural Management 8 2 104 113 10.1108/eb021174 Search in Google Scholar

Bromilow, F. J. (1974). Measurement and scheduling of construction time and cost performance in the building industry. The Chartered Builder, 10(9), pp. 79–82. BromilowF. J. 1974 Measurement and scheduling of construction time and cost performance in the building industry The Chartered Builder 10 9 79 82 Search in Google Scholar

Bromilow, F. J., Hinds, M. F., & Moody, N. F. (1980). AIQS survey of building contract time performance. The Building Economist, 19(September), pp. 79–82. BromilowF. J. HindsM. F. MoodyN. F. 1980 AIQS survey of building contract time performance The Building Economist 19 September 79 82 Search in Google Scholar

Car-Pusic, D., & Radujkovic, M. (2006). Models for rapid evaluation of a sustainable construction time. Građevinar, 58(7), pp. 559–568. Car-PusicD. RadujkovicM. 2006 Models for rapid evaluation of a sustainable construction time Građevinar 58 7 559 568 Search in Google Scholar

Chan, A. P. C. (2001). Time-cost relationship of public sector projects in Malaysia. International Journal of Project Management, 19(4), pp. 223–229. ChanA. P. C. 2001 Time-cost relationship of public sector projects in Malaysia International Journal of Project Management 19 4 223 229 10.1016/S0263-7863(99)00072-1 Search 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, 13, pp. 319–333. ChanD. W. M. KumaraswamyM. M. 1995 A study of the factors affecting construction durations in Hong Kong Construction Management and Economics 13 319 333 10.1080/01446199500000037 Search in Google Scholar

Chan, D. W. M., & Kumaraswamy, M. M. (1999). Modelling and predicting construction durations in Hong Kong public housing. Construction Management and Economics, 17(3), pp. 351–362. ChanD. W. M. KumaraswamyM. M. 1999 Modelling and predicting construction durations in Hong Kong public housing Construction Management and Economics 17 3 351 362 10.1080/014461999371556 Search in Google Scholar

Construction Industry Institute. (2012). CII Best Practices Guide: Improving Project Performance. The University of Texas at Austin, Implementation Resource 166–3, Version 4.0. Construction Industry Institute 2012 CII Best Practices Guide: Improving Project Performance The University of Texas at Austin Implementation Resource 166–3, Version 4.0. Search in Google Scholar

Czarnigowska, A., & Sobotka, A. (2014). Estimating construction duration for public roads during the preplanning phase. Journal of Engineering, Project, and Production Management, 4(1), pp. 26–35. CzarnigowskaA. SobotkaA. 2014 Estimating construction duration for public roads during the preplanning phase Journal of Engineering, Project, and Production Management 4 1 26 35 10.32738/JEPPM.201401.0004 Search in Google Scholar

Damci, A., Arditi, D., & Polat, A. (2013). Multiresource leveling in line-of-balance scheduling. Journal of Construction Engineering and Management, 139(9), pp. 1108–1116. DamciA. ArditiD. PolatA. 2013 Multiresource leveling in line-of-balance scheduling Journal of Construction Engineering and Management 139 9 1108 1116 10.1061/(ASCE)CO.1943-7862.0000716 Search in Google Scholar

Duffy, G. A. (2009). Linear scheduling of Piple construction projects with varying production rates. Doctor thesis, Oklahoma State University, Stillwater, USA. DuffyG. A. 2009 Linear scheduling of Piple construction projects with varying production rates Doctor thesis, Oklahoma State University Stillwater, USA Search in Google Scholar

Edkins, A., Geraldi, J., Morris, P., & Smith, A. (2013). Exploring the front-end of project management. Engineering Project Organization Journal, 3(2), pp. 71–85. EdkinsA. GeraldiJ. MorrisP. SmithA. 2013 Exploring the front-end of project management Engineering Project Organization Journal 3 2 71 85 10.1080/21573727.2013.775942 Search in Google Scholar

Gray, C., & Little, J. (1985). The classification of work packages to determine the relationship between design and construction, Occasional Paper No. 18, Department of Construction Management, University of Reading. GrayC. LittleJ. 1985 The classification of work packages to determine the relationship between design and construction Occasional Paper No. 18, Department of Construction Management, University of Reading. Search in Google Scholar

Harmelink, D., & Rowings, J.E. (1998). Linear scheduling model: Development of controlling activity path. Journal of Construction Engineering and Management, 124(4), pp. 263–268. HarmelinkD. RowingsJ.E. 1998 Linear scheduling model: Development of controlling activity path Journal of Construction Engineering and Management 124 4 263 268 10.1061/(ASCE)0733-9364(1998)124:4(263) Search in Google Scholar

Harmelink, D. J. (1995). Linear scheduling model: The development of a linear scheduling model with micro computer applications for highway construction project control. PhD thesis, Iowa State University, Ames, Iowa. HarmelinkD. J. 1995 Linear scheduling model: The development of a linear scheduling model with micro computer applications for highway construction project control PhD thesis, Iowa State University Ames, Iowa Search in Google Scholar

Harris, R. B., & Ioannou, P. (1998). Scheduling projects with repeating activities. Journal of Construction Engineering and Management, 124(4), pp. 269–278. HarrisR. B. IoannouP. 1998 Scheduling projects with repeating activities Journal of Construction Engineering and Management 124 4 269 278 10.1061/(ASCE)0733-9364(1998)124:4(269) Search in Google Scholar

Ioannou, P. G., & Yang, I.-T. (2004). Discussion of ‘comparison of linear scheduling model and repetitive scheduling method. Journal of Composites for Construction, 8(3), pp. 461–463. IoannouP. G. YangI.-T. 2004 Discussion of ‘comparison of linear scheduling model and repetitive scheduling method Journal of Composites for Construction 8 3 461 463 Search in Google Scholar

Kaka, A. P., & Price, A. D. F. (1991). Relationship between value and duration of construction projects. Construction Management and Economics, 9(4), pp. 383–400. KakaA. P. PriceA. D. F. 1991 Relationship between value and duration of construction projects Construction Management and Economics 9 4 383 400 10.1080/01446199100000030 Search in Google Scholar

Kallantzis, A., & Lambropoulos, S. (2004a). Linear scheduling and critical path determination using minimum and maximum constraints. Engineering, Construction and Architectural Management, 11(3), pp. 211–222. KallantzisA. LambropoulosS. 2004a Linear scheduling and critical path determination using minimum and maximum constraints Engineering, Construction and Architectural Management 11 3 211 222 10.1108/09699980410535813 Search in Google Scholar

Kallantzis, A., & Lambropoulos, S. (2004b). Correspondence of activity relationships and critical path between time-location diagrams and CPM. Operational Research. An International Journal, 4(3), pp. 277–290. KallantzisA. LambropoulosS. 2004b Correspondence of activity relationships and critical path between time-location diagrams and CPM Operational Research. An International Journal 4 3 277 290 10.1007/BF02944146 Search in Google Scholar

Kaming, P., Olomolaiye, P., Holt, G., & Harris, F. (1997). Factors influencing construction time and cost overruns on high-rise projects in Indonesia. Construction Management and Economics, 15(1), pp. 83–94. KamingP. OlomolaiyeP. HoltG. HarrisF. 1997 Factors influencing construction time and cost overruns on high-rise projects in Indonesia Construction Management and Economics 15 1 83 94 10.1080/014461997373132 Search in Google Scholar

Kanoglu, A. (2003). An integrated system for duration estimation in design/build projects and organization. Engineering, Construction and Architectural Management, 10(4), pp. 272–282. KanogluA. 2003 An integrated system for duration estimation in design/build projects and organization Engineering, Construction and Architectural Management 10 4 272 282 10.1108/09699980310489988 Search in Google Scholar

Kolhe, A. R., Macwan, J. E. M., & Chauhan, K. A. (2014). Planning for high-rise building construction using location based repetitive scheduling method (LBRSM). International Journal of Civil Engineering And Technology (IJCIET), 5(5), pp. 1–6. KolheA. R. MacwanJ. E. M. ChauhanK. A. 2014 Planning for high-rise building construction using location based repetitive scheduling method (LBRSM) International Journal of Civil Engineering And Technology (IJCIET) 5 5 1 6 Search in Google Scholar

Lucko, G. (2007). Flexible modeling of linear schedules for integrated mathematical analysis. In: Proceedings of the 2007 39th Winter Simulation Conference, Washington, DC, USA, 9–12 December. LuckoG. 2007 Flexible modeling of linear schedules for integrated mathematical analysis In: Proceedings of the 2007 39th Winter Simulation Conference Washington, DC, USA 9–12 December Search in Google Scholar

Lucko, G. (2008). Productivity scheduling method compared to linear and repetitive project scheduling methods. Journal of Construction Engineering and Management, 134(9), pp. 711–720. LuckoG. 2008 Productivity scheduling method compared to linear and repetitive project scheduling methods Journal of Construction Engineering and Management 134 9 711 720 10.1061/(ASCE)0733-9364(2008)134:9(711) Search in Google Scholar

Lucko, G., & Gattei, G. (2016). Line-of-balance against linear scheduling: Critical comparison. Management, Procurement and Law, 169(1), pp. 26–44. LuckoG. GatteiG. 2016 Line-of-balance against linear scheduling: Critical comparison Management, Procurement and Law 169 1 26 44 10.1680/jmapl.15.00016 Search in Google Scholar

Lucko, G., Alves, T. Da C. L., & Angelim, V. L. (2014). Challenges and opportunities for productivity improvement studies in linear, repetitive, and location-based scheduling. Construction Management and Economics, 32(6), pp. 575–594. LuckoG. AlvesT. Da C. L. AngelimV. L. 2014 Challenges and opportunities for productivity improvement studies in linear, repetitive, and location-based scheduling Construction Management and Economics 32 6 575 594 10.1080/01446193.2013.845305 Search in Google Scholar

Mahamid, I. (2017). Analysis of schedule deviations in road construction projects and the effects of project physical characteristics. Journal of Financial Management of Property and Construction, 22(2), pp. 192–210. MahamidI. 2017 Analysis of schedule deviations in road construction projects and the effects of project physical characteristics Journal of Financial Management of Property and Construction 22 2 192 210 10.1108/JFMPC-07-2016-0031 Search in Google Scholar

Mattila, K. G., & Park, A. (2003). Comparison of linear scheduling model and repetitive scheduling method. Journal of Construction Engineering and Management, 129(1), pp. 56–64. MattilaK. G. ParkA. 2003 Comparison of linear scheduling model and repetitive scheduling method Journal of Construction Engineering and Management 129 1 56 64 10.1061/(ASCE)0733-9364(2003)129:1(56) Search in Google Scholar

Ministarstvo regionalnoga razvoja i fondova Europske unije (MRRFEU). (2019). Izvršavanje i upravljanje ugovorima o dodjeli bespovratnih sredstava - Pravila o financijskim korekcijama. Available at https://razvoj.gov.hr/dokumenti/10 [accessed 18 December, 2019]. Ministarstvo regionalnoga razvoja i fondova Europske unije (MRRFEU) 2019 Izvršavanje i upravljanje ugovorima o dodjeli bespovratnih sredstava - Pravila o financijskim korekcijama Available at https://razvoj.gov.hr/dokumenti/10 [accessed 18 December, 2019]. Search in Google Scholar

Nkado, R. N. (1992). Construction time information system for the building industry. Construction Management and Economics, 10, pp. 489–509. NkadoR. N. 1992 Construction time information system for the building industry Construction Management and Economics 10 489 509 10.1080/01446199200000048 Search in Google Scholar

Olawale, Y., & Sun, M. (2010). Cost and time control of construction projects: Inhibiting factors and mitigating measures in practice. Construction Management and Economics, 28(5), pp. 509–526. OlawaleY. SunM. 2010 Cost and time control of construction projects: Inhibiting factors and mitigating measures in practice Construction Management and Economics 28 5 509 526 10.1080/01446191003674519 Search in Google Scholar

Peer, S., & Selinger, S. (1972). Parameters affecting construction time in housing projects. International Symposia on Low Cost Housing Problems, Missouri University of Science and Technology. PeerS. SelingerS. 1972 Parameters affecting construction time in housing projects International Symposia on Low Cost Housing Problems Missouri University of Science and Technology Search in Google Scholar

Petruseva, S., Zileska-Pancovska, V., & Car-Pušić, D. (2019). Implementation of process-based and data-driven models for early prediction of construction time. Advances in Civil Engineering, 2019, 12 p. PetrusevaS. Zileska-PancovskaV. Car-PušićD. 2019 Implementation of process-based and data-driven models for early prediction of construction time Advances in Civil Engineering 2019 12 p. 10.1155/2019/7405863 Search in Google Scholar

Reda, R. M. (1990). RPM: Repetitive project modeling. Journal of Construction Engineering and Management, 116(2), pp. 316–330. RedaR. M. 1990 RPM: Repetitive project modeling Journal of Construction Engineering and Management 116 2 316 330 10.1061/(ASCE)0733-9364(1990)116:2(316) Search in Google Scholar

Singh, R. (2010). Delays and cost overruns in infrastructure projects: Extent, causes and remedies. Economic and Political Weekly, 45(21), pp. 43–54. SinghR. 2010 Delays and cost overruns in infrastructure projects: Extent, causes and remedies Economic and Political Weekly 45 21 43 54 Search in Google Scholar

Su, Y., & Lucko, G. (2015). Comparison and renaissance of classic line-of-balance and linear schedule concepts for construction industry. Organization, Technology & Management in Construction, 7(2), pp. 1315–1329. SuY. LuckoG. 2015 Comparison and renaissance of classic line-of-balance and linear schedule concepts for construction industry Organization, Technology & Management in Construction 7 2 1315 1329 10.5592/otmcj.2015.2.6 Search in Google Scholar

Su, Y., & Lucko, G. (2016). Linear scheduling with multiple crews based on line-of-balance and productivity scheduling method with singularity functions. Automation in Construction, 70, pp. 38–50. SuY. LuckoG. 2016 Linear scheduling with multiple crews based on line-of-balance and productivity scheduling method with singularity functions Automation in Construction 70 38 50 10.1016/j.autcon.2016.05.011 Search in Google Scholar

Vahdani, B., Mousavi, S. M., Mousakhani, M., & Hashemi, H. (2016). Time prediction using a neuro-fuzzy model for projects in the construction industry. Journal of Optimization in Industrial Engineering, 19, pp. 97–103. VahdaniB. MousaviS. M. MousakhaniM. HashemiH. 2016 Time prediction using a neuro-fuzzy model for projects in the construction industry Journal of Optimization in Industrial Engineering 19 97 103 Search in Google Scholar

Weidman, J. E., Miller, K. R., Christofferson, J. P., & Newitt, S. J. (2011). Best practices for dealing with price volatility in commercial construction. International Journal of Construction Education and Research, 7(4), pp. 276–293. WeidmanJ. E. MillerK. R. ChristoffersonJ. P. NewittS. J. 2011 Best practices for dealing with price volatility in commercial construction International Journal of Construction Education and Research 7 4 276 293 10.1080/15578771.2011.552936 Search in Google Scholar

Žujo, V., Car-Pušić, D., Zileska-Pancovska, V., & Ćećez, M. (2017). Time and cost interdependence in water supply system construction projects. Technological and Economic Development of Economy, 23, pp. 895–914. ŽujoV. Car-PušićD. Zileska-PancovskaV. ĆećezM. 2017 Time and cost interdependence in water supply system construction projects Technological and Economic Development of Economy 23 895 914 10.3846/20294913.2015.1071292 Search in Google Scholar

eISSN:
1847-6228
Language:
English
Publication timeframe:
Volume Open
Journal Subjects:
Engineering, Introductions and Overviews, other