Abstracts – Browse Results
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Abeid, J N (2000) Photo-net: An integrated system for controlling the progress of construction activities, Unpublished PhD Thesis, , Illinois Institute of Technology.
Al-Musallam, A A (2002) A web-based approach for coordinating architectural drawings with other construction documents, Unpublished PhD Thesis, , Illinois Institute of Technology.
Al-Sobiei, O S (2001) Assessment of risk allocation in construction projects, Unpublished PhD Thesis, , Illinois Institute of Technology.
Alavipour, S M (2017) Project scheduling using optimized financing, Unpublished PhD Thesis, , Illinois Institute of Technology.
Alkoud, A (2023) Investigating the impact of tall building ordinances (TBOs) on the evolution of ultra-tall buildings typology: Case studies in Chicago and Dubai, Unpublished PhD Thesis, , Illinois Institute of Technology.
Alothaimeen, I (2018) Multi-objective optimization for LEED: New construction using genetic algorithms, Unpublished PhD Thesis, , Illinois Institute of Technology.
Barbarosoglu, B V (2018) Early detection of maintainability issues in MEP systems using BIM, Unpublished PhD Thesis, , Illinois Institute of Technology.
Chotibhongs, R (2011) Managing the bidding process for the construction owner-detection and prevention of unbalanced bids and collusive bids, Unpublished PhD Thesis, , Illinois Institute of Technology.
Gunaydin, H M (1999) Impact of information technologies on project management functions, Unpublished PhD Thesis, , Illinois Institute of Technology.
Gunhan, S M (2003) Foreign market entry decision model for construction companies, Unpublished PhD Thesis, , Illinois Institute of Technology.
Hanioglu, M N (2014) Influence of owner-organization impression and contract framing on construction contractors' risk perceptions, Unpublished PhD Thesis, , Illinois Institute of Technology.
Ibrahim Mahmoud, M M (2005) An xml initiative of transferring architectural information to the construction site based on the BIM object concept, Unpublished PhD Thesis, , Illinois Institute of Technology.
Kale, S (1999) Competitive advantage in the construction industry: Firm-specific resources and strategy, Unpublished PhD Thesis, , Illinois Institute of Technology.
Kaplanoglu, S B (2007) Impact of pre-project peer review on project success, Unpublished PhD Thesis, , Illinois Institute of Technology.
Kleps, S M (2013) Impact of workflow disruptions, project characteristics and foremen characteristics on improvisational decisions and actions on construction sites, Unpublished PhD Thesis, , Illinois Institute of Technology.
Koksal, A (2002) Predicting the development of decline in construction companies, Unpublished PhD Thesis, , Illinois Institute of Technology.
Le, K T (2017) Material inventory control and management system in construction using GIS applications and a "hybrid" tracking system, Unpublished PhD Thesis, , Illinois Institute of Technology.
Lee, D-E (2004) Construction business automation system (CBAS), Unpublished PhD Thesis, , Illinois Institute of Technology.
Lee, S H (2010) Optimal highway investment decision-making under risk and uncertainty, Unpublished PhD Thesis, , Illinois Institute of Technology.
Ma, L (2022) A BIM-based life cycle assessment tool of embodied energy and environmental impacts of reinforced concrete tall buildings, Unpublished PhD Thesis, , Illinois Institute of Technology.
Mochtar, K (2000) Market-based pricing in construction, Unpublished PhD Thesis, , Illinois Institute of Technology.
Pandey, A R (2016) Heuristic decision-making model for electrical foremen when workflow is disrupted, Unpublished PhD Thesis, , Illinois Institute of Technology.
Pulket, T (2008) Universal prediction model for construction litigation, Unpublished PhD Thesis, , Illinois Institute of Technology.
Rashed, A (2022) Influence of internal factors in construction organizations on the implementation of integrated project delivery viewed from the organizational change theory, Unpublished PhD Thesis, , Illinois Institute of Technology.
Riad, N I (1990) MODA: An expert system for managing owner-directed acceleration, Unpublished PhD Thesis, , Illinois Institute of Technology.
Rujirayanyong, T (2004) Data warehousing for construction, Unpublished PhD Thesis, , Illinois Institute of Technology.
Saleh, E (2020) A risk-based approach in selecting design natural hazard loads for temporary structures, Unpublished PhD Thesis, , Illinois Institute of Technology.
- Type: Thesis
- Keywords: dispute resolution; disputes; expert system; mediator; owner
- ISBN/ISSN:
- URL: https://www.proquest.com/docview/2424515376
- Abstract:
Temporary structures are systems that are used for short period applications such as in maintenance and retrofit applications or for staged performances. Examples of its applications are tents, scaffoldings, and other facilities that have a short service life. Structures under construction and structures under serviceability conditions also fall under this category of structures; because their service time period is only limited to the duration of the construction, which is much shorter than the lifetime of the finished structure. One of the main characteristics of these types of structures is their high vulnerability to stability. Most specifications rarely cover temporary structures. Designing these structures to appropriate levels of the dead and live load does not impose an issue, in which using the same load factors as in permanent structures is considered a reasonable choice. However, an issue is raised when choosing the appropriate wind, seismic and snow load levels, where using the same exposure levels as in permanent structures may not be a desirable economic decision. Thus, for temporary structures, it makes sense to reduce the extreme event design loads proportional to the intended design life. In this manner, it is imperative to have specific rules or guidelines that would address the design aspects and reliability of these structures especially against lateral loads such as wind and earthquakes. This study aims at establishing several decision-making processes that could help contractors, designers, and erectors of temporary works to decide upon safety factors and/or return periods for environmental loads, with emphasis on the wind load. This decision-making process can be used in temporary projects (e.g., bridge erecting) to establish a design criterion based on the nature of the project. The study shows that the optimal decision-making process depends on the willingness to take advantage of wind locality characteristics (e.g., seasonality factor) in certain construction period or region, type of information available for the decision-maker (i.e. , precise or imprecise), the risk associated with the constructed facility or the temporary structure itself, a potential for recourse actions, and the decision-maker’s attitude toward the trade-off between losses and gains with respect to uncertainty. The suggested decision-making process proposed is Bayesian decision process, the fuzzy decision process; (3) a two-stage stochastic programming solution; and (4) case-based decision theory. Several practical examples are presented in this thesis to show how different situations may require varying decision-making processes in order to reach the optimal decision. The design of temporary structures can be altered in response to a forecasted hurricane; thus, we propose a three-stage stochastic programming solution to decide upon their optimal wind design load. In addition, we extend the hurricane catastrophe models for application in temporary structures. This enables contractors to forecast the hurricane losses as a basis for estimating the adequate catastrophe cover such as insurance premiums and reinsurance for temporary structures. This scheme is then illustrated in an example for deciding the required temporary bracings for a steel frame under construction during the hurricane season. To prevent temporary structures from collapse, it is important to investigate the performance quality of previous projects and remove any causes for potential mishaps. This can be done by continuous monitoring of different projects and an investigation of accidents, if any, to help prevent future failures. In this study, we use an audit evidence scheme based on commonly available evidence theories used in the construction industry. In one such theory, the evidence is represented via a tree structure, in which the propagation is toward the variables that represent the project as a whole and separate work packages within a project. For simplicity, we only consider the binary case of variables i.e. whether or not a project conforms to the quality standards. The formulation of the auditing tool relates belief functions to the assertion of the quality assurance and quality control (QA/QC) measures and provides formulas for human error risk. These formulas provide plausibilities of human error in a belief-function format. An auditor may use the belief values to assess the degree of quality performance and to identify the sources of the problem in temporary work. We further illustrate the method in a practical application to evaluate the shoring/reshoring operations for estimating the construction risk in a multistory concrete structure. This evaluation may be used to decide on an appropriate time for formwork removal, shoring/reshoring schedule, casting cycles, post-tensioning sequence, and the required number of reshoring levels given the available evidence. To reduce the computational burden, we describe the shoring/reshoring system as a multi-state system (MSS) where the universal generating function (UGF) was used to estimate the reliability of the system.
Suh, K (1993) RUSS: A scheduling system for repetitive-unit construction using line-of-balance technology, Unpublished PhD Thesis, , Illinois Institute of Technology.
Tokdemir, O B (2003) ALISS: Advanced linear scheduling system, Unpublished PhD Thesis, , Illinois Institute of Technology.
Yang, J (2022) Integrated decision support system for the selection and implementation of delay analysis in construction projects, Unpublished PhD Thesis, , Illinois Institute of Technology.
Yasamis, F (1999) Contractor quality performance (CQP) evaluation model in pavement projects, Unpublished PhD Thesis, , Illinois Institute of Technology.
Zhang, C (2013) Automated progress control using laser scanning technology, Unpublished PhD Thesis, , Illinois Institute of Technology.
Zhou, B (2012) Optimal decision-making of interdependent transportation investment alternatives under risk and uncertainty, Unpublished PhD Thesis, , Illinois Institute of Technology.
Zhou, Q (2002) From CAD to IAD: An internet application of steel construction consulting for architects, Unpublished PhD Thesis, , Illinois Institute of Technology.