With the creation and continuous enhancement of Computer Aided Design (CAD) software, innovations in the area of computer modeling for the construction industry have brought numerous benefits in terms of precision, operability, extensibility, and time-cost savings, among others. Nevertheless, the construction industry is one which continually demands innovation and efficiency in design, leading to the introduction of newer modeling approaches to satisfy client needs. The central thinking behind this research, then, has to do with the automation and generation of construction drawings for the home building industry based on 3D and parametric modeling techniques, and the utilization of the best practice for the platform-frame method. Homebuilders in Canada often build without construction drawings due to the high cost and extensive time expenditure associated with their production; instead, the industry relies on trades personnel to build from architectural model designs. This poor practice contributes to the accumulation of material waste and other construction quality issues. The underlying basis for this research is the notion of adding structure to information, both by incorporating intelligence into a set of operational commands and by adding innovation to the construction process. These topics have been incorporated into a 3D CAD solid model to demonstrate the importance of communicating information from consultants to trades and contractors. 3D and parametric modeling provide the foundation for this complex analysis, which focuses on the generation of panelized and site-built dwellings. The minimization of construction wood materials through the use of mathematical models and a search for best combinations of nominal lumber, sheathing and drywall has been added to this research as an aim to become more efficient. Mathematical optimization models are used to verify the concept for efficient cutting layouts for one- and two-dimensional elements.
This research sets out to demonstrate, by underscoring the present shortcomings, the manner in which 3D and parametric modeling will provide a solution for practitioners and researchers who wish to reduce drafting time and material waste production; to incorporate intelligence to CAD models; and to provide a better use of primary resources by generating guidelines for construction practice. / Construction Engineering and Management
Identifer | oai:union.ndltd.org:LACETR/oai:collectionscanada.gc.ca:AEU.10048/621 |
Date | 11 1900 |
Creators | Manrique Mogollon, Juan David |
Contributors | Al-Hussein, Mohamed (Civil and Environmental Engineering), Bouferguene, Ahmed (Campus Saint Jean), Mohamed, Yasser (Civil and Environmental Engineering), Kuru, Ergun (Mining and Petroleum Engineering), Heidrick, Ted (Mechanical Engineering), Messner, John (Architectural Engineering) |
Source Sets | Library and Archives Canada ETDs Repository / Centre d'archives des thèses électroniques de Bibliothèque et Archives Canada |
Language | English |
Detected Language | English |
Type | Thesis |
Format | 6551694 bytes, application/pdf |
Relation | Manrique, J.D., Al-Hussein, M., and Bouferguene, A. (2009). Integrated Design System for the Home Building Industry. Proceedings of the First International Conference for Construction and Use through Integrated Design Solutions, Espoo, Finland, June 10-12 2009, Manrique, J. D., Al-Hussein, M., Bouferguene, A., Safouhi, H., and Nasseri, R. (2008). Automation of Construction Drawings and Waste Minimization for Stick-Frame Constructions Based on the (i3) Concept. Proceedings of the CSCE 2008 Annual Conference, Quebec City, Canada, June 10-13, 2008., Manrique, J. D., Al-Hussein, M., Bouferguene, A Safouhi, H., and Nasseri, R. (2008). Combinatorial Algorithm For Optimizing Wood Waste in Framing Designs. Submitted to the Journal of Construction Engineering and Management, ASCE, Feb., 2008, Manrique, J. D., Al-Hussein, M., Bouferguene, A., and Nasseri, R. (2007). Shop Drawing Automation and Material Waste Minimization in the Construction of Wood Houses Utilizing 3D-CAD and Optimization Techniques. Proceedings of the 4th International Structural Engineering and Construction Conference, Melbourne, Australia, September 26-28, 2007 |
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