Abstracts – Browse Results
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Abdelmohsen, S M A (2011) An ethnographically informed analysis of design intent communication in BIM-enabled architectural practice, Unpublished PhD Thesis, , Georgia Institute of Technology.
Abraham, G L (2002) Identification of critical success factors for construction organizations in the architectural /engineering /construction (A/E/C) industry, Unpublished PhD Thesis, , Georgia Institute of Technology.
Ahmed, S M (1993) An integrated total quality management (TQM) model for the construction process, Unpublished PhD Thesis, , Georgia Institute of Technology.
Appau, K A (1994) An integrated model of computer-aided cost estimating/scheduling in construction management, Unpublished PhD Thesis, , Georgia Institute of Technology.
Ayyub, B M (1983) Structural safety analysis of reinforced concrete buildings during construction (fuzzy set), Unpublished PhD Thesis, , Georgia Institute of Technology.
Bakheet, M T (1995) Contractors' risk assessment system, Unpublished PhD Thesis, , Georgia Institute of Technology.
Beard, J L (2011) Theoretical framework for determinants of A/E/C firm value, strategy and continuity: An analysis incorporating corporeal, volitional and knowledge assets, Unpublished PhD Thesis, , Georgia Institute of Technology.
Bertz, M D (1998) Situated learning methodologies and assessment in civil engineering structures education, Unpublished PhD Thesis, , Georgia Institute of Technology.
Dabbas, M A A (1981) Computerized decision making in construction, Unpublished PhD Thesis, , Georgia Institute of Technology.
Davis, W J (1997) An evaluation of life cycle factors for urban arterial roadways, Unpublished PhD Thesis, , Georgia Institute of Technology.
El-Itr, Z M (1992) Equal business opportunity programs in the construction industry: A framework for development and implementation, Unpublished PhD Thesis, , Georgia Institute of Technology.
Goodman, R E (1998) Taxonomy of knowledge requirements for executives of general contracting and construction management enterprises, Unpublished PhD Thesis, , Georgia Institute of Technology.
Haj Kazem Kashani, H (2012) A real options model for the financial valuation of infrastructure systems under uncertainty, Unpublished PhD Thesis, , Georgia Institute of Technology.
Khuncumchoo, N (2007) Roof maintenance record analysis toward proactive maintenance policies, Unpublished PhD Thesis, , Georgia Institute of Technology.
Lluch, J F (1981) Analysis of construction operations using microcomputers, Unpublished PhD Thesis, , Georgia Institute of Technology.
Loria Arcila, J H (2002) Major issues impacting affordable housing developments in Mexico, Unpublished PhD Thesis, , Georgia Institute of Technology.
Maldonado-Fortunet, F (2002) Sustainable development criteria for the evaluation of highway projects, Unpublished PhD Thesis, , Georgia Institute of Technology.
Meredith, J E (1999) Strategic management for construction organizations: Assessment and development of strategies to enhance corporate success, Unpublished PhD Thesis, , Georgia Institute of Technology.
Mogge, J W, Jr. (2004) Breaking through the first cost barriers of sustainable planning, design, and construction, Unpublished PhD Thesis, , Georgia Institute of Technology.
Moore, B C (1993) Modeling risk of lunar construction activities: A technology assessment approach, Unpublished PhD Thesis, , Georgia Institute of Technology.
Mulva, S P (2004) ARIES: A theoretical framework for evaluating aspects of enterprise sustainability, Unpublished PhD Thesis, , Georgia Institute of Technology.
Ospina Alvarado, A M (2011) Unified framework for construction project integration and its potential association with project performance, Unpublished PhD Thesis, , Georgia Institute of Technology.
- Type: Thesis
- Keywords: trust; collaboration; communication; integration; leadership; litigation; project delivery; safety; selection criteria; construction team; cluster analysis; factor analysis; productivity; project performance; stakeholder
- ISBN/ISSN:
- URL: https://www.proquest.com/docview/883982321
- Abstract:
The construction industry is not performing as desired by the stakeholders that compose it. Several authors and practitioners have claimed that moving the industry towards a more integrated approach to project delivery could notoriously improve the overall performance of the industry. The main purpose of this study was to obtain a unified framework for project integration, by identifying the critical success attributes for achieving project integration, the different levels of importance of attributes other than the critical success attributes to improve the integration process, and by determining if there are major differences among the perceptions of respondents depending on their role in the industry. In addition, this study also sought to identify potential associations between the integration attributes and the different project performance or project success criteria. In order to develop this framework and to identify the potential associations between integration attributes and project performance, a survey was conducted. The sample of the survey was composed of construction industry practitioners; it included owners, facility managers, engineers, specialty consultants, general contractors, subcontractors, among other professionals. The sample size was 264 respondents. The main method used for developing the framework was the Thurstone Scaling Method of Successive Interval Procedure; In addition, this method was complemented and validated using correlation analysis, factor analysis, cluster analysis and analysis of the means. According to the perception of respondents, 19 attributes out of the 45 attributes under study, were identified as critical for successfully achieving project integration, these attributes are: open and continuous communication; early involvement of key project participants; organization and project manager leadership; information share and exchange; trust; timely responsiveness; owner commitment; personal attitudes and commitment; efficient coordination; adequate resources; top management support; atmosphere of mutual respect; clear responsibilities and accountability structure; early goal definition; knowledge share; common goals and objectives; team selection criteria; intensified planning; contracting structure that fosters collaboration. Four other categories of importance were identified and the other integration attributes were categorized accordingly. No major differences were found between the perceptions that different project participants had in regard to the importance of the different attributes to achieve project integration, leading to the conclusion that the perception of respondents in regard to this matter is very homogeneous. The potential impact of the 45 attributes on 12 performance criteria was analyzed. Although further research is needed in this arena, interesting results were found. The 12 performance criteria under study are: cost; time; health and safety; environmental impact and sustainability; quality, functionality; user satisfaction; owner satisfaction; design team satisfaction; construction team satisfaction; productivity; claims and litigation. According to the perception of respondents, most of the integration attributes have different levels of impact on the different performance criteria. Most of the integration attributes are divided in two groups depending on their behavior across all integration criteria; in addition there are three groups that have one attribute each. The potential impact of each of these groups differs from one performance criterion to the other; however there are some performance criteria where the behavior of the groups is similar. The groups have a similar behavior on cost, time, and productivity; they also behave similarly on quality and owner satisfaction; on functionality and user satisfaction; and on health and safety and environmental impact and sustainability. It is important to take into consideration that previous experience of respondents may influence the ratings they gave to the importance of the integration attributes for achieving project integration and to the potential impact of the integration attributes on performance criteria. In addition, each respondent rated just five random integration attributes on their potential impact on performance criteria.
Paris, D E (2002) A residential satisfaction decision support system for affordable housing, Unpublished PhD Thesis, , Georgia Institute of Technology.
Park, M-W (2012) Automated 3D vision-based tracking of construction entities, Unpublished PhD Thesis, , Georgia Institute of Technology.
Pearce, A R (1999) Sustainability and the built environment: A metric and process for prioritizing improvement opportunities, Unpublished PhD Thesis, , Georgia Institute of Technology.
Perkins, J A (1992) Institutionalizing transportation infrastructure investments and economic development: The role of state departments of transportation in multi-state economic development activities, Unpublished PhD Thesis, , Georgia Institute of Technology.
Rouhi, S (2011) Framework for owner's project requirements for total structural systems (OPRTSS), Unpublished PhD Thesis, , Georgia Institute of Technology.
Shakoorian, A (2006) Performance assessment of building commissioning process as a quality assurance system, Unpublished PhD Thesis, , Georgia Institute of Technology.
Shin, K-C (2000) Identification of critical dispute characteristics (CDCs) during construction project operations, Unpublished PhD Thesis, , Georgia Institute of Technology.
Sillars, D N (1998) Pre-operational attributes as predictors of organizational success within a joint venture: Modeling joint venture formation in the architecture/engineering/construction industry, Unpublished PhD Thesis, , Georgia Institute of Technology.
Smith, V R R (2008) Impact to alternative contracting methods using multivariate analysis in the regulatory environment, Unpublished PhD Thesis, , Georgia Institute of Technology.
Srisethanil, C (1996) Pedagogical framework for an engineering intelligent tutoring system, Unpublished PhD Thesis, , Georgia Institute of Technology.
Tavakoli, A (1983) Productivity analysis of heavy construction operations, Unpublished PhD Thesis, , Georgia Institute of Technology.
Venugopal, M (2011) Formal specification of industry foundation class concepts using engineering ontologies, Unpublished PhD Thesis, , Georgia Institute of Technology.
Verheij, J M (2005) Process-mediated planning of AEC projects through structured dialogues, Unpublished PhD Thesis, , Georgia Institute of Technology.
Xu, G (2011) Assessment of risk of disproportionate collapse of steel building structures exposed to multiple hazards, Unpublished PhD Thesis, , Georgia Institute of Technology.