HBIM for storing life-cycle data regarding decay and damage in existing timber structures

Mol, Alvaro; Cabaleiro, Manuel; Sousa, Hélder S.; Branco, Jorge M.

doi:10.1016/j.autcon.2020.103262

Cited by 61 publications

(39 citation statements)

References 21 publications

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“…Some sensing techniques that rely on radiation, sound, or electromagnetic signals are called Non-Destructive Testing techniques (NDT). They used for health monitoring such as acoustic emissions (AE) for detecting cracks of structures or laser scanning for damage detection in timber structures [ 137 , 138 ]. Integration of various sensors types is a useful approach for covering disadvantages of some sensors by other types for example the electromagnetic NDT sensor has geolocalisation problems which covers by using terrestrial laser scanning (TLS) and Structure-from-Motion (SfM) approaches or combining laser scanning and thermographic images technique is useful for vulnerability detection [ 139 , 140 ].…”

Section: Content Analysismentioning

confidence: 99%

“…Structural safety is the main goal of engineers all over the world; therefore, they are drawn to investigate novel ways of assessing structural defects, facilitated by BIM. Existing research in this area has focused on: goals such as conflict detection based on the life cycle versus as-built documents by considering all changes in the structure, fault detection of energy-consuming tools in buildings through BIM and simulation tools for energy monitoring, fault detection in buildings and non-structural components, damage detection in timber structures, tunnel flaws diagnosis to find maintenance strategies that are also used for utility tunnels, fault detection of hospitals for rehabilitation, automatic detection, and identification of lamps in a building [ 138 , 155 , 156 , 157 , 158 , 159 , 160 , 161 , 162 , 163 , 164 , 165 ]. Some papers used laser scanner data of existing structures along with BIM models [ 166 ].…”

Section: Content Analysismentioning

confidence: 99%

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Application of Building Information Modelling (BIM) in the Health Monitoring and Maintenance Process: A Systematic Review

Panah

Kioumarsi

2021

Sensors

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Improvements in the science of health monitoring and maintenance have facilitated the observation of damage and defects in existing structures and infrastructures, such as bridges and railways. The need to extend sensing technology through the use of wireless sensors as well as the lack of description tools for understanding, visualizing, and documenting sensor outputs has encouraged researchers to use powerful tools such as Building Information Modelling (BIM) systems. BIM has become important because of conducting tools widely used in the Architecture, Engineering, and Construction (AEC) industry to present and manage information on structural systems and situations. Since combining health monitoring and maintenance results with BIM models is a new field of study, and most projects utilize various aspects of it, we have conducted a review of important work related to this subject published from 2010 to November of 2020. After reviewing 278 journal articles, research trends, approaches, methods, gaps, and future agenda related to BIM in monitoring and maintenance were highlighted. This paper, through a bibliometric and content analysis, concludes that besides main improvements, some limitations now exist which affect the modeling and maintenance process. These limitations are related to extending the IFC schema, optimizing sensor data, interoperability among various BIM platforms, optimization of various sensing technologies for fault detection and management of huge amounts of data, besides consideration of environmental effects on monitoring hazards and underground objects. Finally, this paper aims to help to solve the mentioned limitation through a comprehensive review of existing research.

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Section: Content Analysismentioning

confidence: 99%

Section: Content Analysismentioning

confidence: 99%

Application of Building Information Modelling (BIM) in the Health Monitoring and Maintenance Process: A Systematic Review

Panah

Kioumarsi

2021

Sensors

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“…In the context of built cultural heritage, this approach is commonly named as HBIM (Historic Building Information Modelling). It is emerging as a new management system, focused on digitalizing historic structures by creating full physical models populated with meaningful attributes, namely the construction system, constituent materials, existing damages, monitored quantities or maintenance costs among others [3][4][5][6]. This approach offers several advantages compared to traditional methods, such as: i) centralization of information; ii) analysis of the different interventions carried out and; iii) fluid communication between agents.…”

Section: Introductionmentioning

confidence: 99%

“…This approach offers several advantages compared to traditional methods, such as: i) centralization of information; ii) analysis of the different interventions carried out and; iii) fluid communication between agents. This set of advantages makes possible the use of HBIM approaches for structural analysis [7,8], damage assessment [4][5][6]9], restoration [6], documentation [10] and digital representation [11], requiring all the appropriate definition of the different elements. This definition needs of establishing a set of rules, which could be grouped in: i) the Level of Detail (LoD) and; ii) the Level of Information (LoI).…”

Section: Introductionmentioning

confidence: 99%

An historical building information modelling approach for the preventive conservation of historical constructions: Application to the Historical Library of Salamanca

Mora

Sánchez-Aparicio

Maté-González

et al. 2021

Automation in Construction

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This work presents an approach for the preventive conservation of historical constructions by means of HBIM strategies. To this end, the methodology exploits the latest advances in inspection protocols, digitalization tools-by means of the novel back-pack mapping systems-as well as wireless monitoring networks. All this information is integrated in the HBIM environment by using ad-hoc families and interoperable communication protocols that allow obtaining a complete knowledge of the conservation status of the site. Additionally, the approach uses key performance indicators in order to evaluate the environmental conditions of the different assets presented in the site. All these features have been validated in one of the most representative heritage buildings in Spain: The General Historical Library of the University of Salamanca.

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“…A further issue within HBIM development is the Level of Detail of individual tangible elements, and to support this issue Historic England has defined four levels of graphical detail when generating 3D geometry in HBIM projects(Antonopoulou & Bryan, 2017). The work undertaken byMol et al, (2020) has highlighted the potential of HBIM to specifically facilitate a methodology to incorporate decay and damage information of timber structures. This approach used the HBIM model elements as a conduit to include measurement data from point clouds and image data of specific elements Garagnani (2015).…”

mentioning

confidence: 99%

Implementing a HBIM approach to manage the translocation of heritage buildings

Heesom

Boden

Hatfield

et al. 2020

ECAM

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PurposeThe purpose of the paper is to present a study which exploited synergies between the fields of Heritage BIM, conservation and building translocation to develop a new approach to support a digitally enabled translocation process. The translocation (or relocation) of buildings or structures is a niche area of the construction sector and much of the significant work in this field has focused on the relocation of heritage buildings. However, hitherto there was a paucity of work between translocation and the process and technology of BIM.Design/methodology/approachThe study employed a constructive research approach to analyse the phenomenon of heritage translocation. As part of this approach, semi-structured interviews were undertaken with professionals engaged in heritage translocation projects within the UK, and this was supported by a multi-faceted review of literature within the cross cutting themes of translocation and HBIM. Building on the results, a BIM-enabled process was implemented to support the translocation of a 19th-century timber framed building in the UK.FindingsFollowing analysis of results of semi-structured interviews and supported by findings from prevailing literature in the field of translocation and HBIM, a HBIM for Translocation Conceptual Framework (TransHBIM) was developed. Building on the key constructs of the framework, a HBIM-based workflow was implemented to develop a digitally enabled translocation process, which provided a new approach to managing and documenting heritage translocation where disassembly and reconstruction are utilised. The workflow provided a more effective way of documenting individual elements of the building within a digital environment opening up potential for new simulation of the entire process.Originality/valueCurrent approaches to translocation involve traditional/manual methods of recording the building and cataloguing the key heritage elements for all aspects of the process. This new approach implements BIM technologies and processes along with the use of barcode or RFID tags to create a digital bridge between the physical elements of the building and the BIM database. This provides more accurate recording of the heritage and also opens up opportunities to support the process with additional digital simulation techniques enhancing the efficiency of the entire process.

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HBIM for storing life-cycle data regarding decay and damage in existing timber structures

Cited by 61 publications

References 21 publications

Application of Building Information Modelling (BIM) in the Health Monitoring and Maintenance Process: A Systematic Review

Application of Building Information Modelling (BIM) in the Health Monitoring and Maintenance Process: A Systematic Review

An historical building information modelling approach for the preventive conservation of historical constructions: Application to the Historical Library of Salamanca

Implementing a HBIM approach to manage the translocation of heritage buildings

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