Please wait a minute...
Frontiers of Engineering Management

ISSN 2095-7513

ISSN 2096-0255(Online)

CN 10-1205/N

邮发代号 80-905

Frontiers of Engineering Management  2014, Vol. 1 Issue (3): 283-289    DOI: 10.15302/J-FEM-2014037
  本期目录 |  
Situational Awareness in Construction and Facility Management
Burcu Akinci()
Civil & Environmental Engineering, Carnegie Mellon University, Pittsburgh, PA 15213-3890, USA
全文: PDF(491 KB)  
Abstract

Engineers and managers involved in construction and facility/infrastructure operations need situational awareness about the as-is conditions when making daily decisions and developing short- and long-term plans. Yet, currently situational awareness of engineers is often challenged due to missing data and the available data not being in a format that is easily accessible and actionable. Advances in reality capture technologies, such as 3-dimensional (3D) imaging, in-situ sensing, equipment on-board instrumentation and electronic tagging, streamline the capturing of the as-is conditions on job sites. The data collected from these technologies, integrated with building information models depicting the as-planned conditions, can help in creating and storing the history of as-is conditions of a facility to support a variety of decisions that engineers and managers need to make. While the opportunities associated with integrating building information models and data capture technologies are compelling, several challenges need to be addressed through research for effective usage of these technologies. Such challenges include assessing the accuracy of the data collected at the field, developing and evaluating data processing and data fusion approaches, formalizing integrated representation of building information models and sensor and other relevant data, and investigating and developing approaches for analyzing and visualizing such integrated information models. This paper provides examples of recent research studies done at the Civil and Environmental Engineering Department at Carnegie Mellon University that demonstrate opportunities associated with integrating building information models and sensor information for facility operations.

Key wordsbuilding information models (BIM)    sensors    facility operations and management    construction management    situational awareness
收稿日期: 2014-05-10      出版日期: 2015-02-04
引用本文:   
. [J]. Frontiers of Engineering Management, 2014, 1(3): 283-289.
Burcu Akinci. Situational Awareness in Construction and Facility Management. Front. Eng, 2014, 1(3): 283-289.
链接本文:  
http://academic.hep.com.cn/fem/CN/10.15302/J-FEM-2014037      或      http://academic.hep.com.cn/fem/CN/Y2014/V1/I3/283
1 Akcamete, A. (2011). A formal approach for managing facility change information and capturing change history as part of building information models (Doctoral dissertation). Pittsburgh, PA: Carnegie Mellon University
2 Akin, O. (2012). Embedded Commissioning of Building Systems. Boston: Artech House
3 Akinci, B. (2006). A formalism for utilization of sensor systems and integrated project models for active construction quality control. Automation in Construction, 15(2), 124-138
doi: 10.1016/j.autcon.2005.01.008
4 Budike J r, L. (2011). Patent No. 7,870,080. United States of America.
5 Build SMART. (2010). The IFC specification. 2010-<month>05</month>-<day>12</day>. http://www.iai-tech.org/products/ifc specification
6 Eastman, C. (2008). BIM Handbook: A Guide to Building Information Modeling for Owners, Managers, Designers, Engineers, and Contractors. Hoboken, NJ: John Wiley & Sons
doi: 10.1002/9780470261309
7 EIA. (2008). The 2007 commercial building energy consumption survey (CBECS). Washington, D C, US: Energy Information Administration
8 Franklin, S. (2008). Redefining maintenance—Delivering reliability. In Mobley, R. K., Higgins, L. R., & Wikoff, D. J. Maintenance Engineering Handbook (pp.(7, 1.3-1.8)). New York: McGraw-Hill Companies Inc
9 Gallaher, M. P., O’ Connor, A. C., Dettbarn Jr., J. L., & Gilday, L. T. (2004). Cost analysis of inadequate interoperability in the U.S. capital facilities industry. Washington, D C, US: US Department of Commerce, NIST GCR 04-867
10 Gao, T. (2014). Constructing a complete and accurate as-built BIM based on an as-designed BIM and progressive laser scans (Doctoral dissertation). Pittsburgh, PA: Carnegie Mellon University
11 Gao, T., Akinci, B., Ergan, S., & Garrett Jr., J. H. (2012). Constructing as-is BIMs from progressive scan data. Proceedings of International Society of Automation and Robotics in Construction, 11(2), 75
12 Gao, T., Akinci, B., Ergan, S., & Garrett Jr., J. H. (2013). A framework to generate accurate and complete as-built BIMs based on progressive laser scans. In Proceedings of International Society of Automation and Robotics in Construction, Montreal
13 Issa, R. R., Flood, I., & O’Brien, W. J. (2003). 4D CAD and Visualization in Construction: Developments and Applications. Taylor & Francis
14 Khanzode, A., Fischer, M., & Reed, D. (2008). Benefits and lessons learned of implementing building virtual design and construction (VDC) technologies for coordination of mechanical, electrical, and plumbing (MEP) systems on a large health care project. Journal of Information Technology in Construction (ITCon), 13, 324-342
15 Kunz, J., & Fischer, M. (2007). Virtual design and construction: Themes, case studies and implementation suggestions. Stanford, CA: CIFE Technical Reports
16 Liddament, M. W. (1999). Real time simulation of HVAC systems for building optimization, fault detection and diagnostics. Coventry: ESSU
17 Liu, M. D., & Clairidge, D. (2002). Continuous commissioning guidebook: Maximizing building energy efficiency and comfort. US Department of Energy
18 Liu, X. (2012). An integrated information support framework for performance analysis and improvement of secondary HVAC systems (Doctoral dissertation). Pittsburgh, PA: Carnegie Mellon University
19 Liu, X., & Akinci, B. (2011). Requirements for an integrated framework of self-managing HVAC Systems. In ASCE International Workshop on Computing in Civil Engineering. Miami: ASCE
20 Mansson, L. G., & McIntyre, D. (1997). Controlling and regulating heating, cooling and ventilation methods and examples. International Energy Agency
21 Mobley, R. K. (2008). Corrective maintenance. In Mobley, R. K., Higgins, L. R., & Wikoff, D. J. Maintenance Engineering Handbook (pp. (7, 2.3-2.6)). New York: McGraw-Hill Companies Inc
22 NBIM (2014). About the national BIM standard—United States. http://www.nationalbimstandard.org/about.php
23 Roth, K. W., & Westphalen, E. (2005). The energy impact of commercial building controls and performance diagnostics: Market characterization, energy impact of building faults and energy savings potential. Cambridge, MA: TIAX LLC
24 Schein, J., & Bushby, S. T. (2005). A simulation study of a hierarchical, rule-based method for system-level fault detection and diagnostics in HVAC systems. NISTIR
25 Shen, Z., & Issa, R. (2010). Quantitative evaluation of the BIMassisted construction detailed cost estimates. Journal of Information Technology in Construction (ITCon), 15, 234-257
26 Staub-French, S., & Khanzode, A. (2007). 3D and 4D modeling for design and construction coordination: Issues and lessons learned. Journal of Information Technology in Construction (ITCon), 12, 381-407
27 Taneja, S. (2013). A framework for evaluation and generation of navigation models for map-matching of indoor positioning data (Doctoral dissertation). Pittsburgh, PA: Carnegie Mellon University Tocci. (n.d.). ROI for VDC. 2001-<month>02</month>-<day>11</day>. http://www.tocci.com/index.php?option=com_content&view=article&id=160&Itemid=168
28 Wang, H. L. (2007). WLAN-based pedestrian tracking using particle filters and low-cost MEMS sensors. WPNC’07. 4th Workshop (pp. 1-7). Hannover: IEEE
29 Wang, S., & Wang, J. B. (2002). Robust sensor fault diagnosis and validation in HVAC systems. Transactions of the Institute of Measurement and Control, 24(3), 231-262
doi: 10.1191/0142331202tm030oa
30 Xu, X. (2005). Model-based building performance evaluation and diagnosis. Hong Kong: Hong Kong Polytechnic University
No related articles found!
Viewed
Full text


Abstract

Cited

  Shared   
  Discussed