ARCOM

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Duffy, G A, Oberlender, G D and Seok Jeong, D H (2011) Linear Scheduling Model with Varying Production Rates. Journal of Construction Engineering and Management, 137(08), 574–82.

Elbarkouky, M M G and Robinson Fayek, A (2011) Fuzzy Preference Relations Consensus Approach to Reduce Conflicts on Shared Responsibilities in the Owner Managing Contractor Delivery System. Journal of Construction Engineering and Management, 137(08), 609–18.

Hallowell, M R (2011) Risk-Based Framework for Safety Investment in Construction Organizations. Journal of Construction Engineering and Management, 137(08), 592–9.

Hashemi, H, Mousavi, S M and Mojtahedi, S M H (2011) Bootstrap Technique for Risk Analysis with Interval Numbers in Bridge Construction Projects. Journal of Construction Engineering and Management, 137(08), 600–8.

Son, J and Rojas, E M (2011) Evolution of Collaboration in Temporary Project Teams: An Agent-Based Modeling and Simulation Approach. Journal of Construction Engineering and Management, 137(08), 619–28.

Wu, J, Kumaraswamy, M M and Soo, G (2011) Regulative Measures Addressing Payment Problems in the Construction Industry: A Calculative Understanding of Their Potential Outcomes Based on Gametric Models. Journal of Construction Engineering and Management, 137(08), 566–73.

Yang, J and Tsai, M (2011) Computerizing ICBF Method for Schedule Delay Analysis. Journal of Construction Engineering and Management, 137(08), 583–91.

• Type: Journal Article
• Keywords: Analytical techniques; Information systems; Liability; Delay time; Dispute resolution; Scheduling; Construction management; Analytical techniques; Information systems; Liability; Delay time; Dispute resolution; Scheduling;
• ISBN/ISSN: 0733-9364
• URL: https://doi.org/10.1061/(ASCE)CO.1943-7862.0000338
• Abstract:
  Schedule delay is a common construction dispute. For analyzing schedule delays, a previous study had proposed an academic analysis method, the “isolated collapsed but-for” (ICBF) method. However, because many construction projects involve numerous complex activities, the procedure of using the ICBF method for schedule delay analysis is time-consuming. Therefore, this study used Microsoft Visual Basic for Applications (VBA) language and spreadsheet techniques to develop an Excel-based program for rapid delay analysis rather than manual calculation. A case study confirmed that the program automatically produces analytical results with only common delay documents (as-planned and as-built schedules and identified delay events). Compared with previous studies, schedule analysts can obtain analysis results quickly and correctly. Research results provide not only a convenient tool for schedule delay analysis but also a guide to computerize various academic delay analysis methods in the future.