BIM-SPEED Harmonised Building Information Speedway for Energy-Efficient Renovation. BIM-SPEED
Paper abstract bibtex BIM-SPEED consortium WP1: Collecting and understanding BIM data from existing buildings The main objective of WP1 is to reduce time, cost and complexity in the deployment of tools, techniques (methods/ procedures/protocols) for BIM data acquisition in EEB residential renovation projects. D1.1: Methods for architectural, structural, thermal 3D data acquisition of existing buildings D1.2: Methods for surveying and diagnostics of HVAC systems in the existing buildings D1.3: IT solutions to couple dynamic data of the existing buildings to BIM D1.4: IT solutions to couple environmental, surroundings and weather data to BIM D1.5: Applications for crowdsourcing of inhabitants input WP2: Creating As-Built BIM, BIM Passport, Family & Library The main objective of WP2 is to establish a harmonised ontological system to store all information required for planning, executing and monitoring deep renovation activities. D2.1: Method and online tool for defining the feasibility and scope of BIM implementation for renovation projects D2.2: BIM Family ontologies for materials, components, HVAC equipment in renovation projects D2.3: BIM Object Library and Product LCA for renovation projects D2.4: Guidelines for as-built BIM modelling of existing buildings D2.5: A set of BIM Passports of the existing building stock WP3: Creating and calibrating Building Energy & related analytical models The main objective of this WP is to speed up and consolidate the process of converting BIM (Building Information Model) to BEM (Building Energy Model) addressing the specific purposes of renovation projects. D3.1: Analysis of BIM-to-BEM critical parameters and recommendations to solve the current bottlenecks D3.2: A set of support tools and standardised procedures for BEM creation D3.3: Methods for integration of environmental and GIS data to BEM D3.4: A set of calibrated BEM for real demonstration cases and proposed standardisation WP4: Conducting performance simulations of renovation scenarios This Work Package will deliver the BIM-SPEED methodology and tools for the holistic building performance assessment, dedicated to EEB renovation projects and integrated with the use of the BIM-SPEED Platform. D4.1: Baseline and Use Cases for BIM-based renovation projects and KPIs for EEB renovation D4.2: Real demonstration results of BEM performance simulation using BIM-SPEED Toolset D4.3: Practical framework for BIM-based acoustic, thermal comfort, and indoor air quality assessment in renovation projects D4.4: Practical framework for BIM-based lighting and visual comfort assessment in renovation projects D4.5: BIM-based procedures and tool for holistic performance assessment of renovation design options WP5: Developing open-interoperability solutions and standardisation This WP is dedicated to the development of interoperable solutions and input for standardisation of BIM data exchange in a harmonised way between different software utilised in building renovation projects. D5.1: Report on cooperation activities with standardisation bodies and recommendations on BIM for renovation D5.2: BIM Connectors for interoperability between different BIM tools and with the BIM-SPEED Platform D5.3: Methods and tools for rule-based model checking and data validation D5.4: Guidelines for BIM-based procurement, collaboration protocols and IPD for renovation projects WP6: Implementing BIM cloud platform and data management Start month The main objective of this WP is to develop and deploy an operational cloud platform for collaboration and exchange of BIM data and other project documentation between all stakeholders in the whole cycle of EEB renovation projects. D6.1: Launch version of the BIM-SPEED cloud platform, services and interfaces D6.2: Full version of the BIM-SPEED cloud platform, services and interfaces D6.3: Strategies for user acceptance, collaboration support, and BIM data maintenance D6.4: Evaluation and recommendations of BIM data security, privacy, social and ethical aspects WP7: Generating EEB renovation solutions and implementation strategies WP7 will be directly responsible on the project to provide the required insights and process structures to move from the virtual BIM, the accurate energy simulations, and other performance simulations, to the physical renovation solutions and work execution off-site (prefabrication activities) and on-site (removal and assembly activities). D7.1: Multi-criteria decision making method and tool for housing renovation projects D7.2: Machine-learning for As-Built diagnostics and enrichment of design rules for deep renovation D7.3: Semantic design rules and tool for deep renovation design D7.4: Asset management tool D7.5: VR/AR demonstrators of deep renovation scenarios D7.6: BIM Execution Plan for residential deep renovation WP8: Demonstrating best practices of BIM for renovation The overall aim of this WP is to test, validate, demonstrate and implement all BIM-SPEED innovative solutions (methods, platform, tools) with a special emphasis on achieving the targeted impacts. D8.1: Synthesis report on demonstration cases of BIM for renovation projects D8.2: Establishment and management of Community of Practice and Advisory Board D8.3: Synthesis multimedia presentation of the EU BIM for Renovation Competition D8.4: EU BIM guidelines, best practices and market uptake roadmap for renovation of residential buildings WP9: Communicating, disseminating, exploiting innovations This WP aims to effectively address different target audiences of the project in order to maximise the impact of BIMSPEED. The communication of the project outcomes will be done through a multi-channel approach using project websites, newsletters, fact sheets, and a strong social media presence. D9.1: Established internal and external communication channels D9.2: Dissemination and communication plan D9.3: Professional training plan of BIM for renovation D9.4: Exploitation plan, business plan, market uptake strategy WP10: Project coordination This Work Package will concentrate on ensuring that all project objectives are achieved within the time frame of the project and that high quality deliverables are provided on time with all partners making full use of available resources. D10.1: Technical quality assurance and risk management plan D10.2: Project Management Handbook D10.3: Data Management Plan (DMP) WP11: Ethics Requirements This work package sets out the 'ethics requirements' that the project must comply with. D11.1: H - Requirement No. 1 D11.2: POPD - Requirement No. 2
@misc{bim-speed_bim-speed_nodate,
title = {{BIM}-{SPEED} {Harmonised} {Building} {Information} {Speedway} for {Energy}-{Efficient} {Renovation}},
url = {https://www.bim-speed.eu/en/results},
abstract = {BIM-SPEED consortium
WP1: Collecting and understanding BIM data from existing buildings
The main objective of WP1 is to reduce time, cost and complexity in the deployment of tools, techniques (methods/ procedures/protocols) for BIM data acquisition in EEB residential renovation projects.
D1.1: Methods for architectural, structural, thermal 3D data acquisition of existing buildings
D1.2: Methods for surveying and diagnostics of HVAC systems in the existing buildings
D1.3: IT solutions to couple dynamic data of the existing buildings to BIM
D1.4: IT solutions to couple environmental, surroundings and weather data to BIM
D1.5: Applications for crowdsourcing of inhabitants input
WP2: Creating As-Built BIM, BIM Passport, Family \& Library
The main objective of WP2 is to establish a harmonised ontological system to store all information required for planning, executing and monitoring deep renovation activities.
D2.1: Method and online tool for defining the feasibility and scope of BIM implementation for renovation projects
D2.2: BIM Family ontologies for materials, components, HVAC equipment in renovation projects
D2.3: BIM Object Library and Product LCA for renovation projects
D2.4: Guidelines for as-built BIM modelling of existing buildings
D2.5: A set of BIM Passports of the existing building stock
WP3: Creating and calibrating Building Energy \& related analytical models
The main objective of this WP is to speed up and consolidate the process of converting BIM (Building Information Model) to BEM (Building Energy Model) addressing the specific purposes of renovation projects.
D3.1: Analysis of BIM-to-BEM critical parameters and recommendations to solve the current bottlenecks
D3.2: A set of support tools and standardised procedures for BEM creation
D3.3: Methods for integration of environmental and GIS data to BEM
D3.4: A set of calibrated BEM for real demonstration cases and proposed standardisation
WP4: Conducting performance simulations of renovation scenarios
This Work Package will deliver the BIM-SPEED methodology and tools for the holistic building performance assessment, dedicated to EEB renovation projects and integrated with the use of the BIM-SPEED Platform.
D4.1: Baseline and Use Cases for BIM-based renovation projects and KPIs for EEB renovation
D4.2: Real demonstration results of BEM performance simulation using BIM-SPEED Toolset
D4.3: Practical framework for BIM-based acoustic, thermal comfort, and indoor air quality assessment in renovation projects
D4.4: Practical framework for BIM-based lighting and visual comfort assessment in renovation projects
D4.5: BIM-based procedures and tool for holistic performance assessment of renovation design options
WP5: Developing open-interoperability solutions and standardisation
This WP is dedicated to the development of interoperable solutions and input for standardisation of BIM data exchange in a harmonised way between different software utilised in building renovation projects.
D5.1: Report on cooperation activities with standardisation bodies and recommendations on BIM for renovation
D5.2: BIM Connectors for interoperability between different BIM tools and with the BIM-SPEED Platform
D5.3: Methods and tools for rule-based model checking and data validation
D5.4: Guidelines for BIM-based procurement, collaboration protocols and IPD for renovation projects
WP6: Implementing BIM cloud platform and data management Start month
The main objective of this WP is to develop and deploy an operational cloud platform for collaboration and exchange of BIM data and other project documentation between all stakeholders in the whole cycle of EEB renovation projects.
D6.1: Launch version of the BIM-SPEED cloud platform, services and interfaces
D6.2: Full version of the BIM-SPEED cloud platform, services and interfaces
D6.3: Strategies for user acceptance, collaboration support, and BIM data maintenance
D6.4: Evaluation and recommendations of BIM data security, privacy, social and ethical aspects
WP7: Generating EEB renovation solutions and implementation strategies
WP7 will be directly responsible on the project to provide the required insights and process structures to move from the virtual BIM, the accurate energy simulations, and other performance simulations, to the physical renovation solutions and work execution off-site (prefabrication activities) and on-site (removal and assembly activities).
D7.1: Multi-criteria decision making method and tool for housing renovation projects
D7.2: Machine-learning for As-Built diagnostics and enrichment of design rules for deep renovation
D7.3: Semantic design rules and tool for deep renovation design
D7.4: Asset management tool
D7.5: VR/AR demonstrators of deep renovation scenarios
D7.6: BIM Execution Plan for residential deep renovation
WP8: Demonstrating best practices of BIM for renovation
The overall aim of this WP is to test, validate, demonstrate and implement all BIM-SPEED innovative solutions (methods, platform, tools) with a special emphasis on achieving the targeted impacts.
D8.1: Synthesis report on demonstration cases of BIM for renovation projects
D8.2: Establishment and management of Community of Practice and Advisory Board
D8.3: Synthesis multimedia presentation of the EU BIM for Renovation Competition
D8.4: EU BIM guidelines, best practices and market uptake roadmap for renovation of residential buildings
WP9: Communicating, disseminating, exploiting innovations
This WP aims to effectively address different target audiences of the project in order to maximise the impact of BIMSPEED. The communication of the project outcomes will be done through a multi-channel approach using project websites, newsletters, fact sheets, and a strong social media presence.
D9.1: Established internal and external communication channels
D9.2: Dissemination and communication plan
D9.3: Professional training plan of BIM for renovation
D9.4: Exploitation plan, business plan, market uptake strategy
WP10: Project coordination
This Work Package will concentrate on ensuring that all project objectives are achieved within the time frame of the project and that high quality deliverables are provided on time with all partners making full use of available resources.
D10.1: Technical quality assurance and risk management plan
D10.2: Project Management Handbook
D10.3: Data Management Plan (DMP)
WP11: Ethics Requirements
This work package sets out the 'ethics requirements' that the project must comply with.
D11.1: H - Requirement No. 1
D11.2: POPD - Requirement No. 2},
urldate = {2022-12-29},
author = {BIM-SPEED},
}
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D1.1: Methods for architectural, structural, thermal 3D data acquisition of existing buildings D1.2: Methods for surveying and diagnostics of HVAC systems in the existing buildings D1.3: IT solutions to couple dynamic data of the existing buildings to BIM D1.4: IT solutions to couple environmental, surroundings and weather data to BIM D1.5: Applications for crowdsourcing of inhabitants input WP2: Creating As-Built BIM, BIM Passport, Family & Library The main objective of WP2 is to establish a harmonised ontological system to store all information required for planning, executing and monitoring deep renovation activities. D2.1: Method and online tool for defining the feasibility and scope of BIM implementation for renovation projects D2.2: BIM Family ontologies for materials, components, HVAC equipment in renovation projects D2.3: BIM Object Library and Product LCA for renovation projects D2.4: Guidelines for as-built BIM modelling of existing buildings D2.5: A set of BIM Passports of the existing building stock WP3: Creating and calibrating Building Energy & related analytical models The main objective of this WP is to speed up and consolidate the process of converting BIM (Building Information Model) to BEM (Building Energy Model) addressing the specific purposes of renovation projects. D3.1: Analysis of BIM-to-BEM critical parameters and recommendations to solve the current bottlenecks D3.2: A set of support tools and standardised procedures for BEM creation D3.3: Methods for integration of environmental and GIS data to BEM D3.4: A set of calibrated BEM for real demonstration cases and proposed standardisation WP4: Conducting performance simulations of renovation scenarios This Work Package will deliver the BIM-SPEED methodology and tools for the holistic building performance assessment, dedicated to EEB renovation projects and integrated with the use of the BIM-SPEED Platform. D4.1: Baseline and Use Cases for BIM-based renovation projects and KPIs for EEB renovation D4.2: Real demonstration results of BEM performance simulation using BIM-SPEED Toolset D4.3: Practical framework for BIM-based acoustic, thermal comfort, and indoor air quality assessment in renovation projects D4.4: Practical framework for BIM-based lighting and visual comfort assessment in renovation projects D4.5: BIM-based procedures and tool for holistic performance assessment of renovation design options WP5: Developing open-interoperability solutions and standardisation This WP is dedicated to the development of interoperable solutions and input for standardisation of BIM data exchange in a harmonised way between different software utilised in building renovation projects. D5.1: Report on cooperation activities with standardisation bodies and recommendations on BIM for renovation D5.2: BIM Connectors for interoperability between different BIM tools and with the BIM-SPEED Platform D5.3: Methods and tools for rule-based model checking and data validation D5.4: Guidelines for BIM-based procurement, collaboration protocols and IPD for renovation projects WP6: Implementing BIM cloud platform and data management Start month The main objective of this WP is to develop and deploy an operational cloud platform for collaboration and exchange of BIM data and other project documentation between all stakeholders in the whole cycle of EEB renovation projects. D6.1: Launch version of the BIM-SPEED cloud platform, services and interfaces D6.2: Full version of the BIM-SPEED cloud platform, services and interfaces D6.3: Strategies for user acceptance, collaboration support, and BIM data maintenance D6.4: Evaluation and recommendations of BIM data security, privacy, social and ethical aspects WP7: Generating EEB renovation solutions and implementation strategies WP7 will be directly responsible on the project to provide the required insights and process structures to move from the virtual BIM, the accurate energy simulations, and other performance simulations, to the physical renovation solutions and work execution off-site (prefabrication activities) and on-site (removal and assembly activities). D7.1: Multi-criteria decision making method and tool for housing renovation projects D7.2: Machine-learning for As-Built diagnostics and enrichment of design rules for deep renovation D7.3: Semantic design rules and tool for deep renovation design D7.4: Asset management tool D7.5: VR/AR demonstrators of deep renovation scenarios D7.6: BIM Execution Plan for residential deep renovation WP8: Demonstrating best practices of BIM for renovation The overall aim of this WP is to test, validate, demonstrate and implement all BIM-SPEED innovative solutions (methods, platform, tools) with a special emphasis on achieving the targeted impacts. D8.1: Synthesis report on demonstration cases of BIM for renovation projects D8.2: Establishment and management of Community of Practice and Advisory Board D8.3: Synthesis multimedia presentation of the EU BIM for Renovation Competition D8.4: EU BIM guidelines, best practices and market uptake roadmap for renovation of residential buildings WP9: Communicating, disseminating, exploiting innovations This WP aims to effectively address different target audiences of the project in order to maximise the impact of BIMSPEED. The communication of the project outcomes will be done through a multi-channel approach using project websites, newsletters, fact sheets, and a strong social media presence. D9.1: Established internal and external communication channels D9.2: Dissemination and communication plan D9.3: Professional training plan of BIM for renovation D9.4: Exploitation plan, business plan, market uptake strategy WP10: Project coordination This Work Package will concentrate on ensuring that all project objectives are achieved within the time frame of the project and that high quality deliverables are provided on time with all partners making full use of available resources. D10.1: Technical quality assurance and risk management plan D10.2: Project Management Handbook D10.3: Data Management Plan (DMP) WP11: Ethics Requirements This work package sets out the 'ethics requirements' that the project must comply with. D11.1: H - Requirement No. 1 D11.2: POPD - Requirement No. 2","urldate":"2022-12-29","author":[{"firstnames":[],"propositions":[],"lastnames":["BIM-SPEED"],"suffixes":[]}],"bibtex":"@misc{bim-speed_bim-speed_nodate,\n\ttitle = {{BIM}-{SPEED} {Harmonised} {Building} {Information} {Speedway} for {Energy}-{Efficient} {Renovation}},\n\turl = {https://www.bim-speed.eu/en/results},\n\tabstract = {BIM-SPEED consortium \nWP1: Collecting and understanding BIM data from existing buildings\n\nThe main objective of WP1 is to reduce time, cost and complexity in the deployment of tools, techniques (methods/ procedures/protocols) for BIM data acquisition in EEB residential renovation projects.\n\nD1.1: Methods for architectural, structural, thermal 3D data acquisition of existing buildings\nD1.2: Methods for surveying and diagnostics of HVAC systems in the existing buildings\nD1.3: IT solutions to couple dynamic data of the existing buildings to BIM\nD1.4: IT solutions to couple environmental, surroundings and weather data to BIM\n\n D1.5: Applications for crowdsourcing of inhabitants input\n\n \nWP2: Creating As-Built BIM, BIM Passport, Family \\& Library\n\nThe main objective of WP2 is to establish a harmonised ontological system to store all information required for planning, executing and monitoring deep renovation activities.\n\nD2.1: Method and online tool for defining the feasibility and scope of BIM implementation for renovation projects\nD2.2: BIM Family ontologies for materials, components, HVAC equipment in renovation projects\nD2.3: BIM Object Library and Product LCA for renovation projects\nD2.4: Guidelines for as-built BIM modelling of existing buildings\n\n D2.5: A set of BIM Passports of the existing building stock\n\n \nWP3: Creating and calibrating Building Energy \\& related analytical models\n\nThe main objective of this WP is to speed up and consolidate the process of converting BIM (Building Information Model) to BEM (Building Energy Model) addressing the specific purposes of renovation projects.\n\nD3.1: Analysis of BIM-to-BEM critical parameters and recommendations to solve the current bottlenecks\nD3.2: A set of support tools and standardised procedures for BEM creation\nD3.3: Methods for integration of environmental and GIS data to BEM\n\n D3.4: A set of calibrated BEM for real demonstration cases and proposed standardisation\n\n \nWP4: Conducting performance simulations of renovation scenarios\n\nThis Work Package will deliver the BIM-SPEED methodology and tools for the holistic building performance assessment, dedicated to EEB renovation projects and integrated with the use of the BIM-SPEED Platform.\n\nD4.1: Baseline and Use Cases for BIM-based renovation projects and KPIs for EEB renovation\nD4.2: Real demonstration results of BEM performance simulation using BIM-SPEED Toolset\nD4.3: Practical framework for BIM-based acoustic, thermal comfort, and indoor air quality assessment in renovation projects\nD4.4: Practical framework for BIM-based lighting and visual comfort assessment in renovation projects\n\n D4.5: BIM-based procedures and tool for holistic performance assessment of renovation design options\n\n \nWP5: Developing open-interoperability solutions and standardisation\n\nThis WP is dedicated to the development of interoperable solutions and input for standardisation of BIM data exchange in a harmonised way between different software utilised in building renovation projects.\n\nD5.1: Report on cooperation activities with standardisation bodies and recommendations on BIM for renovation\nD5.2: BIM Connectors for interoperability between different BIM tools and with the BIM-SPEED Platform\nD5.3: Methods and tools for rule-based model checking and data validation\n\n D5.4: Guidelines for BIM-based procurement, collaboration protocols and IPD for renovation projects\n\n \nWP6: Implementing BIM cloud platform and data management Start month\n\nThe main objective of this WP is to develop and deploy an operational cloud platform for collaboration and exchange of BIM data and other project documentation between all stakeholders in the whole cycle of EEB renovation projects.\n\nD6.1: Launch version of the BIM-SPEED cloud platform, services and interfaces\nD6.2: Full version of the BIM-SPEED cloud platform, services and interfaces\nD6.3: Strategies for user acceptance, collaboration support, and BIM data maintenance\n\n D6.4: Evaluation and recommendations of BIM data security, privacy, social and ethical aspects\n\n \nWP7: Generating EEB renovation solutions and implementation strategies\n\nWP7 will be directly responsible on the project to provide the required insights and process structures to move from the virtual BIM, the accurate energy simulations, and other performance simulations, to the physical renovation solutions and work execution off-site (prefabrication activities) and on-site (removal and assembly activities).\n\nD7.1: Multi-criteria decision making method and tool for housing renovation projects\nD7.2: Machine-learning for As-Built diagnostics and enrichment of design rules for deep renovation\nD7.3: Semantic design rules and tool for deep renovation design\nD7.4: Asset management tool\nD7.5: VR/AR demonstrators of deep renovation scenarios\n\n D7.6: BIM Execution Plan for residential deep renovation\n\n \nWP8: Demonstrating best practices of BIM for renovation\n\nThe overall aim of this WP is to test, validate, demonstrate and implement all BIM-SPEED innovative solutions (methods, platform, tools) with a special emphasis on achieving the targeted impacts.\n\nD8.1: Synthesis report on demonstration cases of BIM for renovation projects\nD8.2: Establishment and management of Community of Practice and Advisory Board\nD8.3: Synthesis multimedia presentation of the EU BIM for Renovation Competition\n\n D8.4: EU BIM guidelines, best practices and market uptake roadmap for renovation of residential buildings\n\n \nWP9: Communicating, disseminating, exploiting innovations\n\nThis WP aims to effectively address different target audiences of the project in order to maximise the impact of BIMSPEED. The communication of the project outcomes will be done through a multi-channel approach using project websites, newsletters, fact sheets, and a strong social media presence.\n\nD9.1: Established internal and external communication channels\nD9.2: Dissemination and communication plan\nD9.3: Professional training plan of BIM for renovation\n\n D9.4: Exploitation plan, business plan, market uptake strategy\n\n \nWP10: Project coordination\n\nThis Work Package will concentrate on ensuring that all project objectives are achieved within the time frame of the project and that high quality deliverables are provided on time with all partners making full use of available resources.\n\nD10.1: Technical quality assurance and risk management plan\nD10.2: Project Management Handbook\n\n D10.3: Data Management Plan (DMP)\n\n \nWP11: Ethics Requirements\n\nThis work package sets out the 'ethics requirements' that the project must comply with.\n\nD11.1: H - Requirement No. 1\nD11.2: POPD - Requirement No. 2},\n\turldate = {2022-12-29},\n\tauthor = {BIM-SPEED},\n}\n","author_short":["BIM-SPEED"],"key":"bim-speed_bim-speed_nodate","id":"bim-speed_bim-speed_nodate","bibbaseid":"bimspeed-bimspeedharmonisedbuildinginformationspeedwayforenergyefficientrenovation","role":"author","urls":{"Paper":"https://www.bim-speed.eu/en/results"},"metadata":{"authorlinks":{}},"html":""},"bibtype":"misc","biburl":"https://api.zotero.org/users/4913294/collections/8TJWXMVZ/items?key=UsGHLwtkKSIwrYLJ1dXE1NNy&format=bibtex&limit=100","dataSources":["xbTedyZWMuYczs99Q","BGRnivotMnRsjLgAX"],"keywords":[],"search_terms":["bim","speed","harmonised","building","information","speedway","energy","efficient","renovation","bim-speed"],"title":"BIM-SPEED Harmonised Building Information Speedway for Energy-Efficient Renovation","year":null}