Building automation system - BIM integration using a linked data structure

Buildings Automation Systems (BAS) are ubiquitous in contemporary buildings, both monitoring building conditions and managing the building system control points. At present, these controls are prescriptive and pre-determined by the design team, rather than responsive to actual building performance....

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Published inAutomation in construction Vol. 118; p. 103257
Main Authors Quinn, Caroline, Shabestari, Ali Zargar, Misic, Tony, Gilani, Sara, Litoiu, Marin, McArthur, J.J.
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.10.2020
Elsevier BV
Subjects
Building automation
Building automation systems
Building information modeling
Building management systems
Buildings
Data management
Data structures
Facilities management
FM-BIM integration
Information management
Internet of Things
Linked data
Machine learning
Time series
Linked data
FM-BIM integration
Building automation systems
Online AccessGet full text
ISSN0926-5805
1872-7891
DOI10.1016/j.autcon.2020.103257

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Abstract Buildings Automation Systems (BAS) are ubiquitous in contemporary buildings, both monitoring building conditions and managing the building system control points. At present, these controls are prescriptive and pre-determined by the design team, rather than responsive to actual building performance. These are further limited by prescribed logic, possess only rudimentary visualizations, and lack broader system integration capabilities. Advances in machine learning, edge analytics, data management systems, and Facility Management-enabled Building Information Models (FM-BIMs) permit a novel approach: cloud-hosted building management. This paper presents an integration technique for mapping the data from a building Internet of Things (IoT) sensor network to an FM-BIM. The sensor data naming convention and time-series analysis strategies integrated into the data structure are discussed and presented, including the use of a 3D nested list to permit time-series data to be mapped to the FM-BIM and readily visualized. The developed approach is presented through a case study describing the scalability of the approach to integrate a building BAS system with a BIM. The resultant data structure and key visualizations are presented to demonstrate the value of this approach, which permits the end-user to select the desired timeframe for visualization and readily step through the spatio-temporal building performance data. •A linked data approach connects IoT data with BIM.•Acquisition and ingestion, Batch analytics and Integration supports the overall integration.•Time-series navigation of summarized data is facilitated with visual programming languages.•Lab- and full-scale case studies demonstrate the scalability of this approach.
AbstractList Buildings Automation Systems (BAS) are ubiquitous in contemporary buildings, both monitoring building conditions and managing the building system control points. At present, these controls are prescriptive and pre-determined by the design team, rather than responsive to actual building performance. These are further limited by prescribed logic, possess only rudimentary visualizations, and lack broader system integration capabilities. Advances in machine learning, edge analytics, data management systems, and Facility Management-enabled Building Information Models (FM-BIMs) permit a novel approach: cloud-hosted building management. This paper presents an integration technique for mapping the data from a building Internet of Things (IoT) sensor network to an FM-BIM. The sensor data naming convention and time-series analysis strategies integrated into the data structure are discussed and presented, including the use of a 3D nested list to permit time-series data to be mapped to the FM-BIM and readily visualized. The developed approach is presented through a case study describing the scalability of the approach to integrate a building BAS system with a BIM. The resultant data structure and key visualizations are presented to demonstrate the value of this approach, which permits the end-user to select the desired timeframe for visualization and readily step through the spatio-temporal building performance data.
Buildings Automation Systems (BAS) are ubiquitous in contemporary buildings, both monitoring building conditions and managing the building system control points. At present, these controls are prescriptive and pre-determined by the design team, rather than responsive to actual building performance. These are further limited by prescribed logic, possess only rudimentary visualizations, and lack broader system integration capabilities. Advances in machine learning, edge analytics, data management systems, and Facility Management-enabled Building Information Models (FM-BIMs) permit a novel approach: cloud-hosted building management. This paper presents an integration technique for mapping the data from a building Internet of Things (IoT) sensor network to an FM-BIM. The sensor data naming convention and time-series analysis strategies integrated into the data structure are discussed and presented, including the use of a 3D nested list to permit time-series data to be mapped to the FM-BIM and readily visualized. The developed approach is presented through a case study describing the scalability of the approach to integrate a building BAS system with a BIM. The resultant data structure and key visualizations are presented to demonstrate the value of this approach, which permits the end-user to select the desired timeframe for visualization and readily step through the spatio-temporal building performance data. •A linked data approach connects IoT data with BIM.•Acquisition and ingestion, Batch analytics and Integration supports the overall integration.•Time-series navigation of summarized data is facilitated with visual programming languages.•Lab- and full-scale case studies demonstrate the scalability of this approach.
ArticleNumber 103257
Author Shabestari, Ali Zargar
Misic, Tony
Quinn, Caroline
Gilani, Sara
Litoiu, Marin
McArthur, J.J.
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  organization: Department of Architectural Science, Ryerson University, 350 Victoria St., Toronto, ON M5B 2K3, Canada
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Snippet Buildings Automation Systems (BAS) are ubiquitous in contemporary buildings, both monitoring building conditions and managing the building system control...
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StartPage 103257
SubjectTerms Building automation
Building automation systems
Building information modeling
Building management systems
Buildings
Data management
Data structures
Facilities management
FM-BIM integration
Information management
Internet of Things
Linked data
Machine learning
Time series
Title Building automation system - BIM integration using a linked data structure
URI https://dx.doi.org/10.1016/j.autcon.2020.103257
https://www.proquest.com/docview/2454513436
Volume 118
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