Litcius/Paper detail

A novel conceptual cost estimation decision-making model for field canal improvement projects

Haytham H. Elmousalami, Ali Hassan Ali, Ahmed Farouk Kineber, Ahmed Elyamany

2023International Journal of Construction Management31 citationsDOIOpen Access PDF

Abstract

Field Canals Improvement Projects (FCIPs) are a promising project category to preserve irrigation water resources. There are multiple approaches available to estimate a project’s initial cost. However, one of the difficulties in developing a reliable cost estimation model is determining the cost parameters. The study aims to explore and analyse the cost parameters (CPs) to achieve conceptual cost estimate (CCE). This study presents a conceptual model that investigates the connection between CPs and CCE to achieve total project success (TPS) for FCIPs. This is accomplished through mixed methods comprising three phases: (1) the qualitative technique, specifically the Delphi Method (DM), which identifies 21 CPs categorized into four categories; (2) the quantitative method, which utilizes a questionnaire survey conducted with construction experts; and (3) the data analysis through Partial Least Squares - Structural Equation Modelling (PLS-SEM), which is used to verify the correlation between CPs, CCE, and TPS. The results indicate a significant relationship between the CPs and the CCE. Furthermore, the CCE moderately impacts the TPS. This study contributes to the construction industry by filling a critical gap in the literature, shedding new light on the complex dynamics of the relation between CPs and TPS in FCIPs.

Topics & Concepts

Conceptual modelCost estimateDelphi methodPartial least squares regressionField (mathematics)Project managementComputer scienceRelation (database)Structural equation modelingEstimationOperations researchIndustrial engineeringMathematicsData miningEngineeringArtificial intelligenceSystems engineeringMachine learningDatabasePure mathematicsInfrastructure Maintenance and MonitoringConstruction Project Management and PerformanceBIM and Construction Integration