Enhancement of BIM Data Representation in Product-Process Modelling for Building Renovation

Janakiram Karlapudi; Karsten Menzel; Seppo Törmä; Andriy Hryshchenko; Prathap Valluru

doi:10.1007/978-3-030-62807-9_58

Enhancement of BIM Data Representation in Product-Process Modelling for Building Renovation

Janakiram Karlapudi
, Karsten Menzel
, Seppo Törmä
, Andriy Hryshchenko
, Prathap Valluru

School of Engineering and Architecture

Technische Universität Dresden
VisuaLynk Oy

Research output: Chapter in Book/Report/Conference proceedings › Conference proceeding › peer-review

Abstract

Building Information Modelling (BIM) has the potential to become a technology which will help to use a holistic information repository to generate and represent relevant information in different building life-cycle stages (BLCS) to dedicated groups of stakeholders. However, the scope of model components of BIM data (e.g., IFC meta-data) is limited and some parts of it are not modelled in a manner that supports the diversity of engineering use cases. This paper aims to address this deficit by identifying the capability to formulate inference rules as one of the major benefits in the ontology-based information modelling approach. However, before one can formulate inferencing rules a detailed and in-depth understanding is required on how stakeholder information needs are defined in different BLCS and on how available, open-BIM meta-data models support these information requirements. Therefore, the research progressed initially on existing definitions for Level of Detail (LOD) and selected process-modelling standards (BLCS). In the subsequent part, different renovation Activities and the Stakeholder involvements are analysed. Use cases are defined and used as a grouping mechanism for selected scenarios. Based on these grouping mechanisms, a methodology of how components of a BIM-model could be classified to support automated inferencing in the future. The outcome of this research is an established 6-dimensional intercommunication framework (LOD, BLS, Scenarios, Stakeholders, Use Cases, BIM model data) based on the Linked Building Data approach and focusing on renovation processes optimization. Based on the framework, a renovation Product-Process Modelling ontology is developed to connect existing components and to support new interoperable applications.

Original language	English
Title of host publication	Product Lifecycle Management Enabling Smart X - 17th IFIP WG 5.1 International Conference, PLM 2020, Revised Selected Papers
Editors	Felix Nyffenegger, José Ríos, José Ríos, Louis Rivest, Abdelaziz Bouras
Publisher	Springer Science and Business Media Deutschland GmbH
Pages	738-752
Number of pages	15
ISBN (Print)	9783030628062
DOIs	https://doi.org/10.1007/978-3-030-62807-9_58
Publication status	Published - 2020
Event	17th IFIP WG 5.1 International Conference on Product Lifecycle Management, PLM 2020 - Rapperswil, Switzerland Duration: 5 Jul 2020 → 8 Jul 2020

Publication series

Name	IFIP Advances in Information and Communication Technology
Volume	594
ISSN (Print)	1868-4238
ISSN (Electronic)	1868-422X

Conference

Conference	17th IFIP WG 5.1 International Conference on Product Lifecycle Management, PLM 2020
Country/Territory	Switzerland
City	Rapperswil
Period	5/07/20 → 8/07/20

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 16 Peace, Justice and Strong Institutions

Keywords

BIM model
Building life-cycle stages
Interoperability
Linked building data
Ontology for Product-Process modelling (OPPM)
Stakeholder scenarios

Access to Document

10.1007/978-3-030-62807-9_58

Cite this

Karlapudi, J., Menzel, K., Törmä, S., Hryshchenko, A., & Valluru, P. (2020). Enhancement of BIM Data Representation in Product-Process Modelling for Building Renovation. In F. Nyffenegger, J. Ríos, J. Ríos, L. Rivest, & A. Bouras (Eds.), Product Lifecycle Management Enabling Smart X - 17th IFIP WG 5.1 International Conference, PLM 2020, Revised Selected Papers (pp. 738-752). (IFIP Advances in Information and Communication Technology; Vol. 594). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/978-3-030-62807-9_58

Karlapudi, Janakiram ; Menzel, Karsten ; Törmä, Seppo et al. / Enhancement of BIM Data Representation in Product-Process Modelling for Building Renovation. Product Lifecycle Management Enabling Smart X - 17th IFIP WG 5.1 International Conference, PLM 2020, Revised Selected Papers. editor / Felix Nyffenegger ; José Ríos ; José Ríos ; Louis Rivest ; Abdelaziz Bouras. Springer Science and Business Media Deutschland GmbH, 2020. pp. 738-752 (IFIP Advances in Information and Communication Technology).

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title = "Enhancement of BIM Data Representation in Product-Process Modelling for Building Renovation",

abstract = "Building Information Modelling (BIM) has the potential to become a technology which will help to use a holistic information repository to generate and represent relevant information in different building life-cycle stages (BLCS) to dedicated groups of stakeholders. However, the scope of model components of BIM data (e.g., IFC meta-data) is limited and some parts of it are not modelled in a manner that supports the diversity of engineering use cases. This paper aims to address this deficit by identifying the capability to formulate inference rules as one of the major benefits in the ontology-based information modelling approach. However, before one can formulate inferencing rules a detailed and in-depth understanding is required on how stakeholder information needs are defined in different BLCS and on how available, open-BIM meta-data models support these information requirements. Therefore, the research progressed initially on existing definitions for Level of Detail (LOD) and selected process-modelling standards (BLCS). In the subsequent part, different renovation Activities and the Stakeholder involvements are analysed. Use cases are defined and used as a grouping mechanism for selected scenarios. Based on these grouping mechanisms, a methodology of how components of a BIM-model could be classified to support automated inferencing in the future. The outcome of this research is an established 6-dimensional intercommunication framework (LOD, BLS, Scenarios, Stakeholders, Use Cases, BIM model data) based on the Linked Building Data approach and focusing on renovation processes optimization. Based on the framework, a renovation Product-Process Modelling ontology is developed to connect existing components and to support new interoperable applications.",

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author = "Janakiram Karlapudi and Karsten Menzel and Seppo T{\"o}rm{\"a} and Andriy Hryshchenko and Prathap Valluru",

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Karlapudi, J, Menzel, K, Törmä, S, Hryshchenko, A & Valluru, P 2020, Enhancement of BIM Data Representation in Product-Process Modelling for Building Renovation. in F Nyffenegger, J Ríos, J Ríos, L Rivest & A Bouras (eds), Product Lifecycle Management Enabling Smart X - 17th IFIP WG 5.1 International Conference, PLM 2020, Revised Selected Papers. IFIP Advances in Information and Communication Technology, vol. 594, Springer Science and Business Media Deutschland GmbH, pp. 738-752, 17th IFIP WG 5.1 International Conference on Product Lifecycle Management, PLM 2020, Rapperswil, Switzerland, 5/07/20. https://doi.org/10.1007/978-3-030-62807-9_58

Enhancement of BIM Data Representation in Product-Process Modelling for Building Renovation. / Karlapudi, Janakiram; Menzel, Karsten; Törmä, Seppo et al.
Product Lifecycle Management Enabling Smart X - 17th IFIP WG 5.1 International Conference, PLM 2020, Revised Selected Papers. ed. / Felix Nyffenegger; José Ríos; José Ríos; Louis Rivest; Abdelaziz Bouras. Springer Science and Business Media Deutschland GmbH, 2020. p. 738-752 (IFIP Advances in Information and Communication Technology; Vol. 594).

Research output: Chapter in Book/Report/Conference proceedings › Conference proceeding › peer-review

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AU - Karlapudi, Janakiram

AU - Menzel, Karsten

AU - Törmä, Seppo

AU - Hryshchenko, Andriy

AU - Valluru, Prathap

PY - 2020

Y1 - 2020

N2 - Building Information Modelling (BIM) has the potential to become a technology which will help to use a holistic information repository to generate and represent relevant information in different building life-cycle stages (BLCS) to dedicated groups of stakeholders. However, the scope of model components of BIM data (e.g., IFC meta-data) is limited and some parts of it are not modelled in a manner that supports the diversity of engineering use cases. This paper aims to address this deficit by identifying the capability to formulate inference rules as one of the major benefits in the ontology-based information modelling approach. However, before one can formulate inferencing rules a detailed and in-depth understanding is required on how stakeholder information needs are defined in different BLCS and on how available, open-BIM meta-data models support these information requirements. Therefore, the research progressed initially on existing definitions for Level of Detail (LOD) and selected process-modelling standards (BLCS). In the subsequent part, different renovation Activities and the Stakeholder involvements are analysed. Use cases are defined and used as a grouping mechanism for selected scenarios. Based on these grouping mechanisms, a methodology of how components of a BIM-model could be classified to support automated inferencing in the future. The outcome of this research is an established 6-dimensional intercommunication framework (LOD, BLS, Scenarios, Stakeholders, Use Cases, BIM model data) based on the Linked Building Data approach and focusing on renovation processes optimization. Based on the framework, a renovation Product-Process Modelling ontology is developed to connect existing components and to support new interoperable applications.

AB - Building Information Modelling (BIM) has the potential to become a technology which will help to use a holistic information repository to generate and represent relevant information in different building life-cycle stages (BLCS) to dedicated groups of stakeholders. However, the scope of model components of BIM data (e.g., IFC meta-data) is limited and some parts of it are not modelled in a manner that supports the diversity of engineering use cases. This paper aims to address this deficit by identifying the capability to formulate inference rules as one of the major benefits in the ontology-based information modelling approach. However, before one can formulate inferencing rules a detailed and in-depth understanding is required on how stakeholder information needs are defined in different BLCS and on how available, open-BIM meta-data models support these information requirements. Therefore, the research progressed initially on existing definitions for Level of Detail (LOD) and selected process-modelling standards (BLCS). In the subsequent part, different renovation Activities and the Stakeholder involvements are analysed. Use cases are defined and used as a grouping mechanism for selected scenarios. Based on these grouping mechanisms, a methodology of how components of a BIM-model could be classified to support automated inferencing in the future. The outcome of this research is an established 6-dimensional intercommunication framework (LOD, BLS, Scenarios, Stakeholders, Use Cases, BIM model data) based on the Linked Building Data approach and focusing on renovation processes optimization. Based on the framework, a renovation Product-Process Modelling ontology is developed to connect existing components and to support new interoperable applications.

KW - BIM model

KW - Building life-cycle stages

KW - Interoperability

KW - Linked building data

KW - Ontology for Product-Process modelling (OPPM)

KW - Stakeholder scenarios

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Karlapudi J, Menzel K, Törmä S, Hryshchenko A, Valluru P. Enhancement of BIM Data Representation in Product-Process Modelling for Building Renovation. In Nyffenegger F, Ríos J, Ríos J, Rivest L, Bouras A, editors, Product Lifecycle Management Enabling Smart X - 17th IFIP WG 5.1 International Conference, PLM 2020, Revised Selected Papers. Springer Science and Business Media Deutschland GmbH. 2020. p. 738-752. (IFIP Advances in Information and Communication Technology). doi: 10.1007/978-3-030-62807-9_58

Enhancement of BIM Data Representation in Product-Process Modelling for Building Renovation

Abstract

Publication series

Conference

UN SDGs

Keywords

Access to Document

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Cite this