Spelling suggestions: "subject:"5construction industry automatization"" "subject:"5construction industry automatisation""
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The reality of the paperless construction projectKan, Yen-sam, Sammy. January 2006 (has links)
published_or_final_version / abstract / Architecture / Master / Master of Science in Interdisciplinary Design and Management
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Modular robots for self-constructing building systemsHowe, A. Scott. January 2007 (has links)
published_or_final_version / abstract / Industrial and Manufacturing Systems Engineering / Doctoral / Doctor of Philosophy
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Artificial intelligence methodology for simulatron modelingHan, Choong-Hee 12 1900 (has links)
No description available.
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Human-assisted fitting and matching of objects to sparse point clouds for rapid workspace modeling in construction automationKwon, Soon-wook, 1968- 08 July 2011 (has links)
Not available / text
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Spatial information acquisition and its use for infrastructure operation and maintenanceKim, Changwan, 1972 02 August 2011 (has links)
Not available / text
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Multiplan Models for ConstructionJackson, Edson. 01 January 1985 (has links) (PDF)
As computer hardware becomes smaller and increasingly less expensive, more contractors can now use computers to do a number of construction computations which were formally done on hand calculators. The advent of user-oriented software packages has had a significant impact on the traditional data processing procedures of the construction industry. Among the software packages that are available for a large number of computer systems are electronic spreadsheets. Electronic spreadsheets packages, such as Multiplan, are widely used where the display of information can best be depicted in an array of rows and columns. It is frequently useful in situations in which the user wants to change various elements of information or try out various assumptions in a “what if” analysis. This paper discusses, among other things, models for two very important aspects of construction: those of cost estimating and scheduling. The paper further discusses the capabilities of spreadsheets in general as they relate to specific application to the construction industry. A graphical model of a CPM precedence diagram to be used in construction scheduling is presented along with a table for estimating the cost of a building based on the structural components of which it is made. There is also discussion of other software packages with similar capabilities to Multiplan.
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Development of a methodology for automating the identification and localization of engineered components and assessment of its impact on construction craft productivityGrau Torrent, David, 1970- 12 October 2012 (has links)
Even though construction components account for more than fifty percent of the total installed costs, industry practices still solely rely on the human ability to individually track thousands of these components on the site. These primitive tracking processes are inefficient, error-prone, and can significantly hinder project performance. Thus, previous research efforts observed that up to eighteen percent of craft work-hours was attributable to the unavailability of components required for installation. Recently, though, the notion that these ineffective tracking processes can highly benefit from the implementation of information technologies (IT) has gained industry acceptance. However, the reality is that this IT influence on construction performance has not yet been addressed. The objectives of this study are (1) to develop a methodology for the automated identification and localization of engineered components on large industrial projects, and (2) to assess and to quantify the impact of this automating tracking process on project performance. The identification and localization methodology is proposed based on the combination of advanced sensing devices and localization algorithms. The integration of global positioning system (GPS) and radio frequency identification (RFID) receivers facilitates a network-free data collection process capable of detecting the presence of large numbers of RFID-tagged components almost instantly. Based on the collected data, localization algorithms precisely estimate the coordinates of the tagged items. The precision of this automated approach is validated by means of lab and field experiments. Complementarily, the impact of this localization methodology on project performance was quantified during an extensive field trial on a large industrial site. For this purpose, field records from manual and automated tracking processes were collected during the trial. Then, the influence of the automated tracking process on construction performance was determined by considering the manual approach as the baseline for comparison. The results demonstrate that information technologies can significantly enhance project performance. / text
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