Your search keyword '"Industry Foundation Classes"' showing total 19 results

1. Framework for Developing IFC-Based 3D Documentation from 2D Bridge Drawings

Author

Jiansong Zhang and Temitope Akanbi

Subjects

Engineering, Documentation, business.industry, Information model, Industry Foundation Classes, business, Automation, Bridge (interpersonal), Government sector, Construction engineering, Computer Science Applications, Civil and Structural Engineering

Abstract

Building information modeling (BIM) has been widely accepted in the industry and extensively used in supporting many construction tasks. In the government sector, the USDOT Federal Highway ...

Published

2022

2. Data-Driven Reverse Engineering Algorithm Development Method for Developing Interoperable Quantity Takeoff Algorithms Using IFC-Based BIM

Author

Temitope Akanbi, Jiansong Zhang, and Yong-Cheol Lee

Subjects

Reverse engineering, business.industry, Computer science, Interoperability, computer.software_genre, Automation, Computer Science Applications, Data-driven, Development (topology), Information model, Industry Foundation Classes, Takeoff, business, Software engineering, computer, Civil and Structural Engineering

Abstract

One main gap in the automation of construction quantity takeoff (QTO) is the lack of a systematic method to address building information models (BIMs) created from different BIM authoring t...

Published

2020

3. IFC File Content Compression Based on Reference Relationships

Author

Nan Yang, Yunxiao Gu, Fengshuang Yang, and Xiaozhi Du

Subjects

Database, Computer science, business.industry, File format, computer.software_genre, GeneralLiterature_MISCELLANEOUS, Computer Science Applications, Software, Building information modeling, Compression (functional analysis), Content (measure theory), Industry Foundation Classes, business, computer, Civil and Structural Engineering

Abstract

As an open and commonly employed file format in building information modeling (BIM), industry foundation classes (IFC) have been supported by most BIM software platforms. However, IFC files...

Published

2020

4. Automatic Detection of Geometric Errors in Space Boundaries of IFC-BIM Models Using Monte Carlo Ray Tracing Approach

Author

Huaquan Ying and Sanghoon Lee

Subjects

Surface (mathematics), business.industry, Computer science, Monte Carlo method, 0211 other engineering and technologies, Boundary (topology), 020101 civil engineering, 02 engineering and technology, Space (mathematics), 0201 civil engineering, Computer Science Applications, Computational science, Building information modeling, 021105 building & construction, Industry Foundation Classes, Ray tracing (graphics), business, Distributed ray tracing, Civil and Structural Engineering

Abstract

In Industry Foundation Classes (IFC) building information modeling (BIM), the objectified concept of a space boundary (SB) provides a means to define building space geometries with surface ...

Published

2020

5. Structural Performance Monitoring Using a Dynamic Data-Driven BIM Environment

Author

Ioannis Brilakis, Campbell Middleton, Mohammed Z. E. B. Elshafie, Juan Manuel Davila Delgado, Liam J. Butler, Butler, Liam [0000-0002-4244-5142], Brilakis, Ioannis [0000-0003-1829-2083], Elshafie, Mohammed [0000-0001-9908-5515], Middleton, Campbell [0000-0002-9672-0680], and Apollo - University of Cambridge Repository

Subjects

business.industry, Computer science, Interface (computing), Dynamic data, 0211 other engineering and technologies, 020101 civil engineering, 02 engineering and technology, 0201 civil engineering, Computer Science Applications, Visualization, Networking and Information Technology R&D (NITRD), Building information modeling, Data exchange, 021105 building & construction, Industry Foundation Classes, Systems engineering, Asset management, 4005 Civil Engineering, Structural health monitoring, business, 40 Engineering, Civil and Structural Engineering

Abstract

Structural health monitoring data has not been fully leveraged to support asset management due to a lack of effective integration with other datasets. A Building Information Modelling (BIM) approach is presented to leverage structural monitoring data in a dynamic manner. The approach allows for the automatic generation of parametric BIM models of structural monitoring systems that include time-series sensor data; and it enables data-driven and dynamic visualisation in an interactive 3D environment. The approach supports dynamic visualisation of key structural performance parameters, allows for the seamless updating and long-term management of data, and facilitates data exchange by generating Industry Foundation Classes (IFC) compliant models. A newly-constructed bridge near Stafford, UK, with an integrated fibre-optic sensor based monitoring system was used to test the capabilities of the developed approach. The case study demonstrated how the developed approach facilitates more intuitive data interpretation, provides a user-friendly interface to communicate with various stakeholders, allows for the identification of malfunctioning sensors thus contributing to the assessment of monitoring system durability, and forms the basis for a powerful data-driven asset management tool. In addition, this project highlights the potential benefits of investing in the development of data-driven and dynamic BIM environments.

Published

2018

6. IFC BIM-Based Facility Management Approach to Optimize Data Collection for Corrective Maintenance

Author

Yelda Turkan and Firas Shalabi

Subjects

Engineering, Corrective maintenance, business.industry, 020209 energy, Interoperability, 0211 other engineering and technologies, 02 engineering and technology, Building and Construction, Predictive maintenance, Facility management, Building information modeling, Computerized maintenance management system, 021105 building & construction, Industry Foundation Classes, 0202 electrical engineering, electronic engineering, information engineering, Information system, Systems engineering, Safety, Risk, Reliability and Quality, business, Civil and Structural Engineering

Abstract

Facility managers are required to collect high-quality data to achieve corrective maintenance actions. Current facility management (FM) information systems are complex and provide high-quality data. However, they lack interoperability and visualization capabilities. The goal of this study is to improve the quality of data collected that is required for corrective maintenance by utilizing visualization and interoperability capabilities of building information modeling (BIM). To achieve that, an approach that implements industry foundation classes (IFC) BIM to link and present alarms reported by FM systems, such as building energy management systems (BEMS) and building automation systems (BAS), with related data from computerized maintenance management systems (CMMS) was developed and validated on a typical university building. The results showed an efficiency increase in high-quality maintenance data collection. The proposed approach supplements the existing body of knowledge in the FM domain by pr...

Published

2017

7. Query Performance of the IFC Model Server Using an Object-Relational Database Approach and a Traditional Relational Database Approach

Author

Seok Joon You, Jiyong Jeong, Ghang Lee, Sungil Ham, Chi Yon Cho, Hoonsig Kang, and Jongsung Won

Subjects

Database server, Database, Computer science, Relational database, Application server, Object-relational database, computer.software_genre, Object (computer science), Computer Science Applications, Relational database management system, Server, Industry Foundation Classes, computer, Civil and Structural Engineering

Abstract

Most previous industry foundation classes (IFCs) servers were developed based on relational databases (RDBs), and many studies reported performance problems. This study developed the object...

Published

2014

8. Ontology-Based Partial Building Information Model Extraction

Author

Raja R. A. Issa and Le Zhang

Subjects

Database, business.industry, Computer science, Specific-information, Extraction algorithm, computer.software_genre, Computer Science Applications, Building information modeling, Construction industry, Information model, Schema (psychology), Industry Foundation Classes, business, Software engineering, computer, Civil and Structural Engineering

Abstract

The current application of building information modeling (BIM) in the construction industry is generally focused on using the complete building information model during the life cycle of the project. With more information being added to the model, the size of the model file and the difficulty to manipulate the model increase. However, different use scenarios may only require access to certain specific information stored in the model. In contrast with the ample research of ontology applications in construction knowledge management, research of ontology in construction modeling has been limited. Hence, the purpose of this study is to use ontology in the extraction of a partial building information model from the original complete model. The building information models covered in this study are in the Industry Foundation Classes (IFC) format, which is a widely supported open BIM standard. An ontology TBox is developed according to the existing IFC schema specifications. For each specific IFC model, a...

Published

2013

9. No-Schema Algorithm for Extracting a Partial Model from an IFC Instance Model

Author

Ghang Lee, Chi Yon Cho, and Jongsung Won

Subjects

Computer science, business.industry, Data structure, computer.software_genre, Computer Science Applications, Schema (genetic algorithms), Software, Building information modeling, Industry Foundation Classes, Data mining, business, Algorithm, computer, Civil and Structural Engineering

Abstract

This paper proposes an algorithm for extracting a partial model from an Industry Foundation Classes (IFC) instance model without an IFC schema or a complete IFC model view definition (MVD). The methods developed in previous studies require either an IFC schema or MVD and software applications, such as an IFC model server or a building information modeling (BIM) authoring tool, to extract a partial IFC instance model. The algorithm proposed in this paper generates a partial model by recursively extracting IFC data instances in referential relations directly from an IFC instance model file, and it relies solely on the internal data structure of an IFC instance model, without an IFC schema or a MVD. The algorithm extracts physical and nonphysical data instances relevant to the user’s selection of building elements by recursively iterating through data instances based on the rules specified in the algorithm. A set of required building elements is not defined on the spot; rather, a set of building elem...

Published

2013

10. Energy Modeling System Using Building Information Modeling Open Standards

Author

Kyle Anderson and Hyunjoo Kim

Subjects

Computer science, business.industry, Interoperability, Energy modeling, Building design, Computer Science Applications, Building information modeling, Information model, Industry Foundation Classes, Systems engineering, Information system, business, Civil and Structural Engineering, Efficient energy use

Abstract

There is an urgent need in the architecture, engineering, and construction industries for new programs and methods of producing reliable energy simulations using building information modeling (BIM) technology. Current methods and programs for running energy simulations are not very timely, are difficult to understand, and lack high interoperability between BIM and energy simulation software. It is necessary to improve on these drawbacks as design decisions are often made without the aid of energy modeling leading to the design and construction of nonoptimized buildings with respect to energy efficiency. The goal of this research project is to develop a new methodology to produce energy estimates from a BIM model expeditiously and to improve interoperability between the simulation engine and BIM software. In the proposed methodology, the extracted information from a BIM model is compiled into an input file and run in a popular energy simulation program on an hourly basis for a desired period. The case applied in this paper showed that the application of this methodology can be used to quickly provide energy simulations from BIM models. With the aid of an easy-to-run and easily understood energy simulation methodology, designers will be able to make more energy conscious decisions during the design phase and as changes in design requirements arise. DOI: 10.1061/(ASCE)CP.1943-5487.0000215. © 2013 American Society of Civil Engineers. CE Database subject headings: Building information models; Simulation; Energy efficiency. Author keywords: Building information modeling; Energy simulation; Industry Foundation Classes extensible markup language (ifcXML); Interoperability; DOE-2; Energy simulation input (INP) file.

Published

2013

11. IFC-Based Product Catalog Formalization for Software Interoperability in the Construction Management Domain

Author

Hasan Ufuk Gökçe, Kamil Umut Gökçe, and Peter Katranuschkov

Subjects

Construction management, business.industry, Computer science, Interoperability, Database schema, Computer Science Applications, Domain (software engineering), Building information modeling, New product development, Industry Foundation Classes, Systems engineering, Product (category theory), business, Civil and Structural Engineering

Abstract

Interoperability of the heterogeneous applications used in the domain of construction management can be best achieved by using generalized and standardized representations of the needed product data together with the data from product catalog, thereby enabling faster and better management and decision-making in terms of cost efficient building element selection. However, even though various solution approaches have been proposed in the last years, a general approach based on an acknowledged building information model standard is still missing. In this paper, a new product catalog structure complying with the data schema of the Industry Foundation Classes (IFC) standard is presented. It allows for coherent integration of product and cost information, helping to achieve the interoperability of the involved actors and tools in collaborative project environments. The essence of the developed interoperability approach is in the consistent definition of a new IFC View for product catalogues that pulls t...

Published

2013

12. Interpreted Information Exchange: Systematic Approach for BIM to Engineering Analysis Information Transformations

Author

Ali M. Memari and Issa J. Ramaji

Subjects

Computer science, business.industry, Model transformation, Interoperability, 0211 other engineering and technologies, 020101 civil engineering, 02 engineering and technology, 0201 civil engineering, Computer Science Applications, Information engineering, Building information modeling, 021105 building & construction, Industry Foundation Classes, Systems engineering, Information system, business, Architectural model, computer, Information exchange, Civil and Structural Engineering, computer.programming_language

Abstract

Transforming a building information model to an engineering analytical model is tedious and time consuming. With the current state of interoperability, after importing the building information model, the designer makes extensive modifications to prepare the model for analysis. This issue could be addressed by automating the model transformation process. In this paper, an automated interpretation mechanism referred to as interpreted information exchange (IIE) is presented and compared with the conventional direct information exchange (DIE). Moreover, a methodology is proposed for design and standardization of this type of information exchange to facilitate its implementation. Subsequently, application of IIE for engineering analyses is illustrated by explaining and validating a case study platform developed for interpreting the structural analytical model from the architectural model. Furthermore, based on the experience gained as a result of developing this tool, the considerations that need to be...

Published

2016

13. Embedding Procedural Knowledge into Building Information Models: The IFC Procedural Language and Its Application for Flexible Transition Curve Representation

Author

André Borrmann and J. Amann

Subjects

business.industry, Computer science, LOCenter, BIM, openINFRA, sig, Interoperability, 0211 other engineering and technologies, 02 engineering and technology, Procedural knowledge, ddc, Computer Science Applications, Data modeling, Building information modeling, Procedural programming, Data exchange, Information model, 021105 building & construction, Industry Foundation Classes, 0202 electrical engineering, electronic engineering, information engineering, Systems engineering, 020201 artificial intelligence & image processing, business, Software engineering, Civil and Structural Engineering

Abstract

Building information modeling (BIM) refers to the continuous use of semantically rich three-dimensional (3D) building models throughout the entire lifecycle of a facility. BIM data models capture the geometry as well as the semantics of buildings and its constituent parts in an object-oriented manner. They have been developed to achieve high-quality data exchange between software applications, reduce data loss, and increase interoperability. Across the architecture, engineering, and construction (AEC) industry, the open-data model industry foundation classes (IFC) has become a well-accepted standard. The main contribution of this paper is the introduction of a procedural language called the IFC procedural language (IFCPL) that can be easily embedded into an IFC-based building information model. This enables software developers to exchange procedural programs between different software applications in a platform-independent way using a neutral data format. IFCPL programs describe algorithms that op...

Published

2016

14. Smart Construction Objects

Author

Ke Chen, Chimay J. Anumba, Yuhan Niu, George G. Huang, and Weisheng Lu

Subjects

Construction management, Engineering, Ubiquitous computing, computer.internet_protocol, business.industry, Smart objects, 0211 other engineering and technologies, 02 engineering and technology, Computer Science Applications, Prefabrication, Workflow, Building information modeling, 021105 building & construction, Industry Foundation Classes, 0202 electrical engineering, electronic engineering, information engineering, Systems engineering, 020201 artificial intelligence & image processing, business, Software engineering, computer, XML, Civil and Structural Engineering

Abstract

The primary aim of this research is to define smart construction objects (SCOs), the fundamental building blocks of future construction. SCOs are construction resources (e.g., machinery, device, and materials) that are made smart by augmenting them with technologies conferring autonomy, awareness, and the ability to interact with their vicinity. This smartness can enable better decision making in construction. Understanding of SCOs, however, is still in its infancy. Informed by theories on ubiquitous computing and general smart objects, this paper first defines the panoramic and interconnected properties that differentiate SCOs from conventional construction objects. Second, representative scenarios of the use of SCOs are given to illustrate the new workflow with enhanced smartness in the future. Next, using prefabrication construction as an example, this paper further elaborates SCOs using Industry Foundation Classes Extensible Markup Language and exploring their software/hardware representations...

Published

2016

15. Metrics for Quantifying the Similarities and Differences between IFC Files

Author

Ghang Lee, Sungil Ham, Jongsung Won, and Yuna Shin

Subjects

Matching (statistics), Computer science, Globally unique identifier, computer.software_genre, Missing data, Computer Science Applications, Set (abstract data type), Identification (information), Data exchange, Industry Foundation Classes, Data mining, computer, Information exchange, Civil and Structural Engineering

Abstract

Recently, several papers reported problems in data exchange using industry foundation classes (IFC). However, most comparisons were made based on a visual check, a manual count, and observation of properties that were selectively chosen. This study proposes a set of metrics for quantifying the similarities and differences between IFC files. The proposed metrics include the similarity rate, the matching rate, the globally unique identifier (GUID) preservation rate, the missing rate, and the addition rate. A long-term goal of this study is to develop a set of metrics for quantifying the information exchange rate between two IFC files. Automated identification of modified information versus newly generated information is an unsolved challenge. The proposed metrics were used in analyzing 88 IFC files generated from different systems to demonstrate the potential use of the proposed metrics.

Published

2011

16. Delivering the Infrastructure for Digital Building Regulations

Author

James H. Garrett, Salih Demir, and Mark E. Palmer

Subjects

Engineering, business.industry, Process (engineering), Building design, Computer Science Applications, Engineering management, Building information modeling, Software deployment, Information model, Industry Foundation Classes, ASHRAE 90.1, business, Digitization, Civil and Structural Engineering

Abstract

The building industry uses numerous engineering standards, building codes, specifications, and regulations (henceforth, all are referred to as “regulations” for the purposes of brevity), and a diverse set of industry vocabularies to describe, assess, and deliver constructed facilities. These building regulations are available as hardcopy and searchable digital documents. Some building design software applications (e.g., building-energy analysis and fire-egress assessment) are available that include computer-interpretable representations of the logic and rules from relevant building regulations. As part of the expanding use of building information modeling and new types of software applications, building and regulatory stakeholders and their software suppliers are recognizing the value of combining building models with rule sets for multidomain analyses, optimization, and assessing regulatory compliance. The availability of validated representations of building regulations for use by model-checking applications will streamline and shorten the building process, reduce inefficiencies and errors in the process, and enable new capabilities for optimizing designs and for automating the regulations-compliance assessment process. There has been a significant amount of research on this topic, and some of these results have been published in this journal during the past three decades. There are now a number of very important initiatives [e.g., by Associated General Contractors of America (AGC); American Institute of Steel Construction (AISC); American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE); Fiatech: Industry Consortium to Advance Innovation (ICAI); International Code Council (ICC); National Institute of Building Sciences (NIBS); and the United States Army Corps of Engineers (USACE)] to develop standardized representational approaches for building regulations so that they can be applied and checked automatically against building information models and standardized data-exchange representations, such as the Industry Foundation Classes (IFCs). Numerous fields of engineering, particularly those that rely on interdisciplinary collaboration, are adopting vocabulary-management and ontologydevelopment software tools as part of the process of transitioning to computer-interpretable standards for engineering. Buildingsystems engineering, sustainable manufacturing (Lechevalier et al. 2013), and biomedical engineering are using these semantic tools to develop the needed infrastructure for a new generation of computer-interpretable engineering standards. With this editorial, we provide recommendations for broadening the support and coordination of these initiatives, which are needed and timely, and present a set of issues derived from research and prototyping that is related to development and industry deployment of formal computable representations of building regulations. We hope that these recommendations and deployment challenges will be taken up, either in the short-term or over the long-term, by everyone involved in the digitization of building regulations and the building industry, as we move to using building regulations as computer-interpretable resources for model-based engineering in the architecture, engineering, and construction (AEC) industry.

Published

2014

17. IFC-Based Framework for Evaluating Total Performance of Building Envelopes

Author

H. S. He, Amin Hammad, Paul Fazio, and Miljana Horvat

Subjects

Engineering, Visual Arts and Performing Arts, business.industry, Process (engineering), International standard, Information technology, CAD, Building and Construction, Set (abstract data type), Data model, Architecture, Industry Foundation Classes, Systems engineering, Operations management, business, Building envelope, Civil and Structural Engineering

Abstract

Evaluating the overall performance of buildings has emerged as a trend in building engineering in recent years. Several programs that evaluate building performance have been developed or are being developed in different regions of the world. The building envelope performance assessment tool was initiated at Concordia University based on the feedback received from manufacturers. After briefly introducing the development of the tool, this paper presents an integrated framework which applies information technology and the international standard Industry Foundation Classes (IFC) to ensure that the building envelope satisfies energy requirements as well as other requirements such as moisture and thermal performance, concurrently. The framework is designed to extract geometric and material layers’ data of a house from computer-aided design (CAD) drawings in IFC data model, link to performance evaluation applications, such as HOT2000 and MOIST3.0, and compare evaluation results with a set of criteria. To demonst...

Published

2007

18. IFC-Based Graph Data Model for Topological Queries on Building Elements

Author

A. Khalili and David K. H. Chua

Subjects

business.industry, computer.software_genre, Topology, Computer Science Applications, Facility management, Building information modeling, Schema (psychology), Industry Foundation Classes, Graph data model, Graph (abstract data type), Data mining, Architecture, business, computer, Project design, Civil and Structural Engineering, Mathematics

Abstract

The adoption of building information modeling (BIM) in construction has led to greater integration of architecture, engineering, construction/facility management (AEC/FM) stakeholders at the project design stage; the result being the incorporation of new complex tasks into construction applications. However, conventional two-dimensional (2D) and nonsemantic three-dimensional (3D) models cannot handle the topological analysis of 3D objects that is required by BIM, especially with regard to building elements. This article describes a new schema, termed the graph data model (GDM) that can be used to employ semantic information, to extract, analyze, and present the topological relationships among 3D objects in 3D space, and to perform topological queries faster. This GDM uses weighted graph principles for simplicity and incorporates an industry foundation classes (IFC)-based algorithm for automatic deduction of topological relationships. A prototype of GDM is implemented in a C# platform and verified ...

Published

2015

19. Development of an Industry Foundation Classes Assembly Viewer

Author

Abidemi Owolabi, Chimay J. Anumba, Colin Harper, and Ashraf El-Hamalawi

Subjects

Construction management, Class (computer programming), business.industry, Computer science, Computer programming, Computer Science Applications, Data sharing, Software, Documentation, Industry Foundation Classes, Project management, Software engineering, business, Civil and Structural Engineering

Abstract

The construction industry has invested considerable effort into integration of project information in the last decade. One such effort is the definition of Industry Foundation Classes (IFCs) to facilitate data sharing across applications through a shared project model. In order to achieve the integration objectives, the industry software vendors need to commit to the implementation of IFC in their products. IFC is defined in EXPRESS, which is a platform-independent, object-flavored, data modeling language. The EXPRESS-based models must be translated into some programming language model for specific implementation. To achieve this, developers need to evaluate and select a suitable model and programming language for their implementation. Developers therefore need to understand both EXPRESS and a host of programming languages. This initial knowledge requirement may hinder the take-off or adoption of IFC-based implementation. This paper describes a software solution that reduces this initial knowledge requirement considerably by providing a .NET class library translation and an implementation view of the IFC model, based on the EXPRESS definitions. Complemented by the online documentation provided with the IFC definitions, the software provides a hierarchical view of the IFC-based programming objects with drill-down facility for developers to capture and appreciate the information requirement for specific objects.

Published

2006