The architecture, engineering and construction (AEC) industry is epitomized by a wide range of project business lines, different project scopes, unique client requirements, and a…
Abstract
The architecture, engineering and construction (AEC) industry is epitomized by a wide range of project business lines, different project scopes, unique client requirements, and a rapidly changing automation technology. This current scenario requires a constant transfer of project data among the various professionals representing different specializations, project phases and interests. The implementation of improved computer techniques such as object‐oriented programming and CAD reduces fragmentation and enhances the efficiency of integrating project data through all stages of generation, sharing, maintaining, and updating. This reduced fragmentation will assist in bridging the gaps between and within the project phases, thereby increasing the competitiveness of the AEC industry. This paper presents different issues related to the existing fragmentation in the AEC industry and the challenges and approaches to achieve a meaningful and smooth integration. The paper describes the development of ODCSI—an object‐oriented design/construction system for integrating CAD and construction software applications. The system architecture captures design data in an object‐oriented project model and acts as an intelligent CAD interface. In the hierarchy of object‐oriented classes and subclasses, the design data are inherited; hence all functional, geometrical, structural, construction management, and construction engineering functions are shared across class boundaries. These design data are used as the input to various computer‐based construction software applications, hence providing seamless project integration.
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HASHEM AL‐TABTABAI, NABIL KARTAM, IAN FLOOD and ALEX P. ALEX
Construction projects are susceptible to cost and time overruns. Variations from planned schedule and cost estimates can result in huge losses for owners and contractors. In…
Abstract
Construction projects are susceptible to cost and time overruns. Variations from planned schedule and cost estimates can result in huge losses for owners and contractors. In extreme cases, the viability of the project itself is jeopardised as a result of variations from baseline plans. Hence new methods and techniques which assist project managers in forecasting the expected variance in schedule and cost should be developed. This paper proposes a judgment‐based forecasting approach which will identify schedule variances from a baseline plan for typical construction projects. The proposed forecasting approach adopts multiple regression techniques and further utilises neural networks to capture the decision‐making procedure of project experts involved in schedule monitoring and prediction. The models developed were applied to a multistorey building project under construction and were found feasible for use in similar construction projects. The advantages and limitations of these two modelling process for prediction of schedule variance are discussed. The developed models were integrated with existing project management computer systems for the convenient and realistic generation of revised schedules at appropriate junctures during the progress of the project.
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Khaled Al‐Reshaid, Nabil Kartam, Narendra Tewari and Haya Al‐Bader
It is a well‐known fact that the construction industry always passes through two distinctive problems during the construction stage: slippages of project‐schedules, i.e…
Abstract
Purpose
It is a well‐known fact that the construction industry always passes through two distinctive problems during the construction stage: slippages of project‐schedules, i.e. time‐frame, and overruns of project‐costs, i.e. budget. However, limited literature is available to solve or dilute these two problems before they even occur. It is strongly believed that the bulk of the two mentioned problems can be mitigated to a great extent, if not eliminated, provided that proper attention is paid to the pre‐construction phases of projects. Normally projects are implemented through traditionally old techniques which generally emphasize only solving “construction problems during the construction phase”. The aim of this article is therefore to unveil a professional methodology known as Project Control System (PCS) focusing on pre‐construction phases of construction projects.
Design/methodology/approach
In this article, the authors share the lessons learned during implementation of Kuwait University projects worth approximately $400 million in a span of ten years. The task of the project management/construction management (PM/CM) is being provided to the university by a joint venture team of international and local specialists.
Findings
The pre‐construction methodology ensures smooth and successful implementation during construction phases of the projects as they are generally executed in a fast‐pace, deadline‐driven and cost‐conscious environment. The intuitive proactive methods, if implemented during pre‐construction stage, automatically answer the questions that are encountered during the execution periods of projects.
Originality/value
In this article, the authors share the lessons learned during PM/CM during projects over a span of ten years, which could be of use to others.
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Parviz A. Koushki and Nabil Kartam
The construction of residential projects constitutes a major portion of the building activities in the State of Kuwait. This paper presents the findings of a research project…
Abstract
The construction of residential projects constitutes a major portion of the building activities in the State of Kuwait. This paper presents the findings of a research project, which aims to determine the causes of delays and cost‐overruns in the construction of housing projects in Kuwait. The owners of 450 residential projects (just completed or near completion), spread over 27 systematic‐randomly selected metropolitan districts, were personally interviewed. Data on owners' socio‐demographic traits and project characteristics, including those involving time and cost overruns, were obtained. The paper highlights the impacts of construction materials on time‐delays and cost‐increases. Project‐related variables affecting the on‐time delivery of materials to the construction site are examined and quantified. The material selection‐time, type of materials, their availability in the local market and the presence of a supervising engineer, all demonstrated a statistically significant impact on the on‐time delivery of materials to construction sites.