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10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/1-1

General

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach.

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/2-1

General

Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp.

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/3-1

General

Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp.

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/4-1

General

Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/5-1

Introduction

Building information modelling (BIM) as a collaborative digital information management approach to construction project delivery is touted as an effective way of addressing issues affecting the productivity of the construction industry

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/6-1

Introduction

The current approach to generating MIDP is manual through pre-designed templates using text processing Software such as Microsoft Word or Excel. Managing information manually, as with current practices, invites several challenges. The main challenge remains getting everyone involved in collaborative projects to use construction design and engineering and to ascertain the exact level of (and the specific) information required for different aspects/types of assets. Thus, some projects on which BIM is claimed to be used ended up without useful information for construction, in the short-term, and asset management in the long-term. In addition, maintaining consistency and uniformity of the information across the project requires dedication and strong collaboration among all participants of the MIDP. The PAS-1192, now revised as ISO 19650 (the digitization and management of information about architecture, engineering and construction

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/7-1

Introduction

The present work thus aims to design and implement a complete collaborative BIM cloud-based system (named Auto-BIMApp (Auto-BIMApp, 2021)) for automating BEP involving naming that follows the convention in line with PAS-1192 and handles the need JEDT for adequate building information to accompany 3D-representation of building materials, elements or products. Existing proposals have addressed automation within BIM, which brings novelty to the present work. Moreover, a collaborative environment for managing and generating MIDP is the present need of the industry. To develop the automated BEP cloud platform, participatory action research was used to develop the proof of concept and involve industrial collaboration with a leading UK construction firm and its supply chain. The collaborative research and development approach facilitated two-way input through which the development and testing of the digital platform was tailored to the industry needs and best practices. The strength of the proposed system is the integration of planning with BIM as well as working on tasks in an integrated environment. The next section of the paper presents a review of extant literature, which is then followed by the methodological approach to the study, covering the design, development and testing of automated naming and MIDP generating platform. Discussion of the study is then presented before culminating the paper in a conclusion and implication for practice.

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/8-1

Related work

In this section, an exhaustive review of existing literature on BEPs and naming conventions is provided.

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/9-1

Building information modelling execution plan

The BEP is a protocol that indicates the key factors the team should follow during the project, recognizing the limitations of the project, the stakeholder agreements and requirements and technical and collaborative aspects to consider during the project

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/10-1

Building information modelling execution plan

Authors have addressed BEP in terms of public-private partnership

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/11-1

Building information modelling execution plan

Integration of BEP to the project management process has been reported by

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/12-1

Building information modelling execution plan

addressing the implementation details. The provided recommendations for integrating collaboration are managing the documents shared among teams, defining information transfer methodology, frequency of meetings, location and directory listing of all team members (external or internal)

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/13-1

Naming conventions

The importance of standardized naming convention for objects of the BIM was realized very early by researchers and practitioners

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/14-1

Naming conventions

While the naming convention seems straightforward, the repetitive nature of the naming, as well as the long string of letters and digits in a tightly defined manner, implies that it could easily become highly complex, time-consuming and error-prone

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/15-1

Naming conventions

The Industry Foundation Classes (IFC) platform is working on the standardization of BIM objects and formulating a common exchange format between different applications. The data model of the IFC is an object-based file format designed for interoperability in the AEC industry. Recently, it extended to serve as a format for collaboration in BIM applications. Several countries, such as Denmark and Finland, have adopted IFC as a mandatory requirement for their construction industry. The IFC data model tends to address certain flexibilities for data exchange; however, it possessed several inconsistencies with the commercially available formats. A project named buildingSMART (buildingSMART, 2019) is recently developed based on the IFC data model having two components, i.e. the information delivery manual (IDM) and the model view definition (MVD). IDM is the non-technical details, whereas MVD is the technical explanation to the data exchange. IFC-based project is currently at its early stages, and substantial advancements are required to fully realize its potential.

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/16-1

Naming conventions

Uniform naming of the BIM objects is a fundamental requirement for the design of a collaborative system. Table

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/17-1

Naming conventions

The proposal of the present work also addresses associating design files from the local machine to the cloud provided task list. Researchers have incorporated the reusability of building objects by associating semantic information using ontologies in a Web-based platform

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/18-1

Naming conventions

Naming the building objects in BIM is a way to improve the efficiency of the overall lifecycle of the building process

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/19-1

Auto-BIMApp: automating building information modelling execution plan system

The present work aims to develop and implement a cloud-based BIM system that automates the process of collaboratively generating MIDP, an important element of the BEP. The proposal also addresses the requirement of the naming convention in line with ISO 19650 and handles the need for adequate building information to accompany 3D-representation of building materials, elements or products. The realization of the proposed system came into being because non-consistent/inadequate project information is preventing the true benefits from the BIM. By facilitating auto-population of building information, adequate information will be provided in a structured/consistent format, providing sufficient task-specific information to better-inform construction workers. This will improve the time/quality and reduce errors/reworks.

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/20-1

Auto-BIMApp: automating building information modelling execution plan system

Auto-BIMApp is implemented on a cloud Software-as-a-Service (SaaS) architecture to support the needs of different types of users and to ensure naming uniformity throughout the whole building process ranging from planning to its completion. A high-level cloud architectural diagram of the Auto-BIMApp system is shown in Figure

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/21-1

Auto-BIMApp: automating building information modelling execution plan system

Above all information and processing at the Auto-BIMApp cloud, the authorization and access level layers are implemented to provide individual workspace to its users. Multiple companies can register with the system using the Web-based interface. Project leaders are the personals looking at the whole project, and they can be registered with the system or be invited by a company manager to initiate a project or review supplier's provided information (building execution plan). A company can have multiple project leaders. Moreover, project leaders can initiate multiple projects. Project leaders then invite task leaders to handle and process tasks of their relevant expertise within a project. Task leaders are people with specialized expertise, such as architecture and land surveyors, as defined by Uniclass 2015. To implement a complete collaboration among different types of users, the proposed system facilitates the invitation of task leaders from another registered company as well as an individual within or outside the project leader's company. With this kind of authorization, different task leaders having different expertise can work together under a single project to complete their respective tasks. Task leaders can further invite task members to assist them in the completion of their assigned tasks. Task members can be from within the same company or invited as an individual. Comments and notes can be associated with all actions carried out by the users, which provide strong communication among all super and subordinates. The strong authorization and access policy implemented within Auto-BIMApp administers the requirement of data privacy and protection, which is an important aspect of any collaborative environment, in line with ISO 19650-5:2020 security-minded approach. Auto-BIMApp creates a separate workspace for every individual project that collates documents, information and team members of the respective project. The sharing and ownership information for every piece of information is associated with the item and is visible to only those members who have access to it. All activities performed by team members are logged for tracking purposes.

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/22-1

Auto-BIMApp: automating building information modelling execution plan system

ISO 19650 (Information management) is a specification document that specifies the requirements for achieving Level 2 BIM. Above Level 0 (unmanaged CAD) and Level 1 (managed CAD), BIM Level 2 is more concerned with the collaborative environment with Cloud-based collaborative ecosystem associated data from different discipline models. However, the real focus of BIM is Level 3, which is a single universal collaborative environment that host and create data together for all stages of the construction lifecycle starting from contract, planning and cost to delivery. The present proposal addresses the requirements of Level 3 BIM through cloud SaaS infrastructure in-cooperating support for different applications and platforms and user management including access and authorizations.

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/23-1

Auto-BIMApp: automating building information modelling execution plan system

The Auto-BIMApp process starts by registering a company with a company manager account or the project leader account through an online Web system. The company manager or the project leader can set up a project. To enforce the uniformity among projects and tasks, a large amount of information is pre-authored or stored in the cloud, such as project types, project discipline and task types, among others, as defined in Uniclass 2015. For example, a specific type of project involves a list of the specific type of tasks, materials and require a specific person with expertise. The selection of project type provides convenience to the user as the proposed system automatically populate the mandatory set of information for the selected project type. As compared to other BIM systems (NBS, 2019), the proposed Auto-BIMApp manages information under a multi-context structure for every role type, task type, file type, project discipline and discipline category. Previous BIM solutions work with only one role type for viewing and reviewing project information. However, in the proposed BIM system, an individual with a specific role can be invited to collaborate at any level of detail. With this, within the proposed system, every user can see only the specific part of the project where he needs to contribute accordingly to his expertise. Table

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/24-1

Auto-BIMApp: automating building information modelling execution plan system

The data storage layer is implemented using a scalable relational database management system. Some of the relations (tables) are shown in Figure

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/25-1

JEDT applications.

Restful API provides both the data transfer and the execution of procedural commands.

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/26-1

Auto-BIMApp cloud system

An important aspect of the ISO 19650 specifications is the BEP (as shown in Figure

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/27-1

Auto-BIMApp cloud system

In addition to managing the pre-contract phase, the proposed system handles, manages and generates the MIDP. MIDP enlists all information deliverables within the project containing information about what would be prepared, who will prepare, when it will be prepared and what procedures and protocols shall be used for every stage of the project. MIDP serves as a protocol document that involves all contract forms. MIDP support information exchange between suppliers (contractor) and employers and manage various tiers of the supply chain. The information exchange is mainly carried out through various forms of documents; the proposed system organizes this information exchange among all stakeholders through MIDP. MIDP is collated from a series of federated lists of information deliverables called task information delivery plan (TIDP). Each task team assigned with a specific responsibility sets out their information deliverable as TIDP that includes tasks, documents, responsibilities and timelines.

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/28-1

Auto-BIMApp cloud system

The proposed system provides a facility for every project leader to form a designated team for a separate TIDP. This collaborative working environment implements a real BIM Level 2 system. Every TIDP activity serves as a milestone for the task teams. The progress information of every individual TIDP is visible to all members that give a clear indication of the overall progress of the whole project. With the MIDP, the company manager or the project leaders can easily identify the cause and effect of delays incurred by any individual task team.

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/29-1

Auto-BIMApp cloud system

A key aspect of the proposed system is to enforce BS EN ISO 19650 naming convention for the tasks, documents and information. The main reason for a naming convention is to synchronize and structure the collaboration among task teams that is understandable for all members at every stage of the project. A survey of the construction industry has revealed Figure

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/30-1

Auto-BIMApp cloud system

The role part of the unique name after type information represents the standard code for a role such as architecture and civil engineer. There are 387 roles with their unique codes stored in the central repository of the proposed system. Companies can add new roles of their choice, but they will be accessible within their own project space. Every project leader can invite a task leader based on an assigned role. The classification part of the unique name is an optional item that represents the asset selected from the reference dictionary. The next part of the unique name is the sequential number that uniquely represents the task if all previous items remain the same for any given task. Moreover, these sequential numbers form a group based on type information. This sequential number is always five characters long, and trailing zeros are used for smaller numbers. The final two parts of the unique names are suitability and revision codes that are internally managed by the proposed system. Suitability code is used by the Auto-BIMApp system for status information of any given task, such as suitable for review, suitable for coordination, approval and return. Whereas the revision code is used to maintain the revision history of every individual task.

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/31-1

JEDT

Figure

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/32-1

Auto-BIMApp Revit plug-in

The proposed Auto-BIMApp system is comprising backend and frontend tiers. The backend is the cloud storage and management, whereas the frontend can be any client application, either Web, mobile or any software plug-in. To demonstrate and implement a complete cycle of collaboration among teams to produce MIDP, a Revit plug-in as the frontend of Auto-BIMApp is developed. The plug-in can communicate with the backend cloud services for the retrieval and modification of tasks under a given project. The plug-in is developed using C# . Net framework. Figure

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/33-1

Auto-BIMApp Revit plug-in

The user then selects the role and click the "Get task list" button to retrieve all tasks from the cloud that are assigned to him. The list of tasks is shown as sheets sub-items in Figure

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/34-1

Results and discussion

This section presents the results of two experiments carried out to validate the proposal.

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/35-1

Results and discussion

The first experiment is performed to evaluate the accuracy and supportiveness of the proposed system, while the latter one evaluates the performance of the system in terms of time-saving for the whole MIDP process.

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml

10.1108/JEDT-02-2022-0128

A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)

Purpose -Master information delivery plan (MIDP) is a key requirement for building information modelling (BIM) execution plan (BEP) that enlists all information deliverables in BIM-based project, containing information about what would be prepared, when, by who, as well as the procedures and protocols to be used. In a wellconceived BEP, the MIDP facilitates collaboration among stakeholders. However, current approaches to generating MIDP are manual, making it tedious, error-prone and inconsistent, thereby limiting some expected benefits of BIM implementation. The purpose of this study is to automate the MIDP and demonstrate a collaborative BIM system that overcomes the problems associated with the traditional approach. Design/methodology/approach -A BIM cloud-based system (named Auto-BIMApp) involving naming that automated MIDP generation is presented. A participatory action research methodology involving academia and industry stakeholders is followed to design and validate the Auto-BIMApp. Findings -A mixed-method experiment is conducted to compare the proposed automated generation of MIDP using Auto-BIMApp with the traditional practice of using spreadsheets. The quantitative results show over 500% increased work efficiency, with improved and error-free collaboration among team members through Auto-BIMApp. Moreover, the responses from the participants using Auto-BIMApp during the experiment shows positive feedback in term of ease of use and automated functionalities of the Auto-BIMApp. Originality/value -The replacement of traditional practices to a complete automated collaborative system for the generation of MIDP, with substantial productivity improvement, brings novelty to the present research. The Auto-BIMApp involve multidimensional information, multiple platforms, multiple types and levels of users, and generates three different representations of MIDP.

10.1108/JEDT-02-2022-0128/36-1

Case study for validation

As a case study, the TIDP and MIDP processes of a real transport-related construction project have been completed using the Auto-BIMApp system to validate the system's accuracy and supportiveness. The data containing all TIDP and MIDP files of the said project is collected from a Tier 1 UK construction company that has completed this project in the year 2019. The collected MIDP file of the project contains 1,442 tasks in total. TIDP files of six different disciplines are combined to form this final MIDP file. The project has involved 18 different roles. Similarly, the project tasks contain information of 258 unique locations. The highest document type used for the tasks were DR, M3 and M2. A team of five members was formed to experiment, with three members from the academics and two from the industry. The members from the academics include a leading researcher who had previous experience of working in the construction industry. While the other two members from the academics are researchers with background in information technology who have worked on the Auto-BIMApp project for over a year. The team members from the industry are civil engineers with engineering software expertise. Both were previously involved in the planning of the transport-related construction project. The hierarchy of roles is defined as the leader is assigned a "company admin" account to initiate the project and invite project leaders to complete the project. The system generates separate login credentials for every role and delivers them to team members through email. The system has the provision to invite many members under the same role or a single member for different roles. All team members have access to centrally shared copies of the TIDP and MIDP files of the project. All participants have used the Auto-BIMApp system from their own workplace serving different project roles for the purpose of system evaluation. Auto-BIMApp has an internal messaging system for team communication. In addition to that, participants have also used video conferencing for their meetings.

Muhammad Azeem Abbas|Saheed O Ajayi|Adekunle Sabitu Oyegoke|Hafiz Alaka

2022

Facilitating compliance with BIM ISO 19650 naming convention through automation|Automating construction manufacturing procedures using BIM digital objects (BDOs): case study of knowledge transfer partnership project in the UK|A conceptual framework for utilising BIM digital objects (BDO) in manufacturing design and production|Auto-BIMApp|Autodesk Revit|Towards increased BIM usage for existing building interventions|Semantic enrichment for building information modeling|Delivering BIM to the UK market|Automating the creation of building information models for existing buildings|The British standards institution|BuildingSmart|Perceived benefits of and barriers to building information modelling (BIM) implementation in construction: the case of Hong Kong|Asynchronous online collaboration in BIM generation using hybrid client-server and P2P network|Impacts of 4D BIM on construction project performance|State of Wisconsin -department of administration|BIM-based collaborative and interactive design process using computer game engine for general end-users|Design and development of BIM models to support operations and maintenance|Naming objects in BIM: a convention and a semiautomatic approach|BIM-based file synchronization and permission management system for architectural design collaboration|Development of BIM execution plan for BIM model management during the pre-operation phase: a case study|Best practices for BIM execution plan development for a publicprivate partnership design-build-finance-operate-maintain project|NBS BIM object standard|The INNOVance BIM library approach|Implementation of BIM technology into the design process using the scheme of BIM execution plan|Single shared model approach for building information modelling|Integration of the BIM execution plan with the guide to the project management body of knowledge (PMBOKV R ) of PMI (project management institute) = integraci on del plan de ejecuci on BIM con la guía Para la direcci on de proyectos (PMBOKV R ) de PMI (project management institute)|BIM Project Management BT -Building Information Modeling: Technology Foundations and Industry Practice|BIM-based collaboration platform for the management of EPC projects in hydropower engineering|A deployment framework for BIM localization|Constructing a building information modelling (BIM) execution plan for quantity surveying practice|Semantic interoperability in building design: methods and tools|Building information modelling for off-site construction: review and future directions

Abbas et al. - 2022 - A cloud-based collaborative ecosystem for the automation of BIM execution plan (BEP)-annotated.tei.xml