2016
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McGlinn, Kris; Wiese, Matthias; Wicaksono, Hendro Towards a shared use case repository – the SWIMing initiative started in the framework of the EU H2020 R&DI programme Inproceedings Proceedings of the 33rd International Conference of CIB W78, Digital library of construction informatics and information technology in civil engineering and construction, 2016. Abstract | Links | BibTeX | Tags: building information modelling, Energy efficient building, linked data, Ontology @inproceedings{McGlinn2016,
title = {Towards a shared use case repository – the SWIMing initiative started in the framework of the EU H2020 R&DI programme},
author = {Kris McGlinn and Matthias Wiese and Hendro Wicaksono},
url = {http://itc.scix.net/data/works/att/w78-2016-paper-010.pdf},
year = {2016},
date = {2016-11-02},
booktitle = {Proceedings of the 33rd International Conference of CIB W78},
publisher = {Digital library of construction informatics and information technology in civil engineering and construction},
abstract = {Data exchange and data sharing are one of the big challenges in the Architecture, Engineering, and Construction (AEC) industry and energy efficient building (EeB) domain. BIM open standards and lately the use of Semantic Web technologies provide a sound basis to implement exchange requirements derived from typical EeB use cases. However, the challenge remains to identify what models are available and how to align these with a particular use cases data requirements. This paper focuses on the application of an established methodology (Information Delivery Manual) adapted for the EeB domain and the application of the BIM*Q tool, which applies this methodology. The paper proposes to build-up a shared use case repository that collects detailed data Exchange Requirements as well as alignments to existing models to support projects when developing new use cases in the difficult task of aligning data requirements with models and standards. },
keywords = {building information modelling, Energy efficient building, linked data, Ontology},
pubstate = {published},
tppubtype = {inproceedings}
}
Data exchange and data sharing are one of the big challenges in the Architecture, Engineering, and Construction (AEC) industry and energy efficient building (EeB) domain. BIM open standards and lately the use of Semantic Web technologies provide a sound basis to implement exchange requirements derived from typical EeB use cases. However, the challenge remains to identify what models are available and how to align these with a particular use cases data requirements. This paper focuses on the application of an established methodology (Information Delivery Manual) adapted for the EeB domain and the application of the BIM*Q tool, which applies this methodology. The paper proposes to build-up a shared use case repository that collects detailed data Exchange Requirements as well as alignments to existing models to support projects when developing new use cases in the difficult task of aligning data requirements with models and standards. |
McGlinn, Kris; Wicaksono, Hendro; Lawton, Willie; Wiese, Matthias; and Kaklanis, Nikolaos; Petri, Ioanna; Tzovaras, Dimitrios Identifying use cases and data requirements for BIM based energy management Inproceedings CIBSE, 2016. Abstract | Links | BibTeX | Tags: building energy management, building information modelling, building lifecycle management, Energy efficient building, linked data, use cases @inproceedings{McGlinn2016b,
title = {Identifying use cases and data requirements for BIM based energy management},
author = {Kris McGlinn and Hendro Wicaksono and Willie Lawton and Matthias Wiese and and Nikolaos Kaklanis and Ioanna Petri and Dimitrios Tzovaras},
url = {https://www.cibse.org/knowledge/knowledge-items/detail?id=a0q20000008I71X},
year = {2016},
date = {2016-04-15},
publisher = {CIBSE},
abstract = {Energy consumption over the whole Building Lifecycle (BLC) is difficult to monitor and predict due to the complexity of the processes involved. Building Information Modelling (BIM) addresses the management and interoperability of the data exchanged between different computer applications employed at different stages of the BLC. Industry Foundation Classes (IFC) is a leading standard of BIM implementation. As yet, IFC does not cover all data structures to meet the latest use case data requirements for energy management. Linking IFC with other available ontologies is one potential solution. In this paper 46 unique use cases are identified over 33 EU projects in the Energy Efficient Building domain and explored in order to identify the most relevant data domains across projects. These data domains will form the basis of a process of alignment of project data models with existing standards and ontologies. It will also provide the basis of guidelines for new projects wishing to improve interoperability.},
keywords = {building energy management, building information modelling, building lifecycle management, Energy efficient building, linked data, use cases},
pubstate = {published},
tppubtype = {inproceedings}
}
Energy consumption over the whole Building Lifecycle (BLC) is difficult to monitor and predict due to the complexity of the processes involved. Building Information Modelling (BIM) addresses the management and interoperability of the data exchanged between different computer applications employed at different stages of the BLC. Industry Foundation Classes (IFC) is a leading standard of BIM implementation. As yet, IFC does not cover all data structures to meet the latest use case data requirements for energy management. Linking IFC with other available ontologies is one potential solution. In this paper 46 unique use cases are identified over 33 EU projects in the Energy Efficient Building domain and explored in order to identify the most relevant data domains across projects. These data domains will form the basis of a process of alignment of project data models with existing standards and ontologies. It will also provide the basis of guidelines for new projects wishing to improve interoperability. |
2015
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Wicaksono, Hendro; Dobreva, Preslava; Häfner, Polina; Rogalski, Sven Methodology to Develop Ontological Building Information Model for Energy Management System in Building Operational Phase Book Chapter Fred, Ana; Dietz, Jan L G; Liu, Kecheng; Filipe, Joaquim (Ed.): Springer, Berlin, Heidelberg, Berlin, Heidelberg, 2015, ISBN: 978-3-662-46548-6. Links | BibTeX | Tags: building information modelling, Energy efficient building, ontology engineering, ontology population @inbook{Wicaksono2015b,
title = {Methodology to Develop Ontological Building Information Model for Energy Management System in Building Operational Phase},
author = {Hendro Wicaksono and Preslava Dobreva and Polina Häfner and Sven Rogalski},
editor = {Ana Fred and Jan L.G. Dietz and Kecheng Liu and Joaquim Filipe},
url = {https://link.springer.com/chapter/10.1007/978-3-662-46549-3_11},
doi = {10.1007/978-3-662-46549-3_11},
isbn = {978-3-662-46548-6},
year = {2015},
date = {2015-04-25},
publisher = {Springer, Berlin, Heidelberg},
address = {Berlin, Heidelberg},
keywords = {building information modelling, Energy efficient building, ontology engineering, ontology population},
pubstate = {published},
tppubtype = {inbook}
}
|
Wicaksono, Hendro Intelligent Information model for improving energy efficiency in building operational phase Conference Jahrestagung des KIT-Zentrums Energie, EST Energy Science Technology, 2015. BibTeX | Tags: building information modelling, Energy efficient building, Ontology, ontology engineering, ontology population @conference{Wicaksono2015,
title = {Intelligent Information model for improving energy efficiency in building operational phase},
author = {Hendro Wicaksono},
year = {2015},
date = {2015-01-20},
booktitle = {Jahrestagung des KIT-Zentrums Energie, EST Energy Science Technology},
keywords = {building information modelling, Energy efficient building, Ontology, ontology engineering, ontology population},
pubstate = {published},
tppubtype = {conference}
}
|
2014
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Anzaldi, Gabriel; Corchero, Aitor; Wicaksono, Hendro; McGlinn, Kris; Gardelan, Anton; Dibley, Michael J Knoholem: Knowledge-Based Energy Management for Public Buildings Through Holistic Information Modeling and 3D Visualization Inproceedings Gonzalez, Ignacio (Ed.): International Technology Robotics Applications, pp. 47-56, Springer International Publishing Switzerland Springer International Publishing, Switzerland, 2014, ISBN: 978-3-319-02332-8. Abstract | Links | BibTeX | Tags: building energy management, building information modelling, knowledge based energy management, Ontology @inproceedings{Anzaldi2014,
title = {Knoholem: Knowledge-Based Energy Management for Public Buildings Through Holistic Information Modeling and 3D Visualization},
author = {Gabriel Anzaldi and Aitor Corchero and Hendro Wicaksono and Kris McGlinn and Anton Gardelan and Michael J. Dibley},
editor = {Ignacio Gonzalez},
url = {http://www.springer.com/de/book/9783319023311},
doi = {10.1007/978-3-319-02332-8},
isbn = {978-3-319-02332-8},
year = {2014},
date = {2014-01-09},
booktitle = {International Technology Robotics Applications},
volume = {70},
number = {1},
pages = {47-56},
publisher = {Springer International Publishing},
address = {Switzerland},
organization = {Springer International Publishing Switzerland},
abstract = {The mismanagement of energy in public buildings is related with the continuous growing up of energy consumption. Energy efficiency concept is one of the main awareness in the current society. The main contribution of the paper is focused on describing intelligent energy management architecture capable of intelligent generation of recommendations taking into account infrastructure behavior (building), user behavior (occupants of the building) and holistic techniques (recommendations and knowledge from other buildings). This article describes an approach developed under European Union project called
KnoHolEM. Project solution is characterized by:(1) Support buildings in (near-) real-time energy monitoring through smart metering;(2) Knowledge-based development of intelligent energy management solutions, supporting interoperability between heterogeneous systems and assisted by algorithms for energy consumption.},
keywords = {building energy management, building information modelling, knowledge based energy management, Ontology},
pubstate = {published},
tppubtype = {inproceedings}
}
The mismanagement of energy in public buildings is related with the continuous growing up of energy consumption. Energy efficiency concept is one of the main awareness in the current society. The main contribution of the paper is focused on describing intelligent energy management architecture capable of intelligent generation of recommendations taking into account infrastructure behavior (building), user behavior (occupants of the building) and holistic techniques (recommendations and knowledge from other buildings). This article describes an approach developed under European Union project called
KnoHolEM. Project solution is characterized by:(1) Support buildings in (near-) real-time energy monitoring through smart metering;(2) Knowledge-based development of intelligent energy management solutions, supporting interoperability between heterogeneous systems and assisted by algorithms for energy consumption. |
2013
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Wicaksono, Hendro; Dobreva, Preslava; Häfner, Polina; Ovtcharova, Jivka Ontology Development towards Expressive and Reasoning-enabled Building Information Model for an Intelligent Energy Management System Inproceedings Proceedings of the International Conference on Knowledge Engineering and Ontology Development - Volume 1: KEOD, (IC3K 2013), pp. 38-47, INSTICC SciTePress, Lissabon, 2013, ISBN: 978-989-8565-81-5. Abstract | Links | BibTeX | Tags: building information modelling, Energy efficient building, ontology engineering, ontology population @inproceedings{Wicaksono2013b,
title = {Ontology Development towards Expressive and Reasoning-enabled Building Information Model for an Intelligent Energy Management System},
author = {Hendro Wicaksono and Preslava Dobreva and Polina Häfner and Jivka Ovtcharova },
url = {http://www.scitepress.org/PublicationsDetail.aspx?ID=crW8NNTn1p4=&t=1},
doi = {10.5220/0004540300380047},
isbn = {978-989-8565-81-5},
year = {2013},
date = {2013-09-23},
booktitle = {Proceedings of the International Conference on Knowledge Engineering and Ontology Development - Volume 1: KEOD, (IC3K 2013)},
volume = {1},
pages = {38-47},
publisher = {SciTePress},
address = {Lissabon},
organization = {INSTICC},
abstract = {In recent years, energy consumption in buildings has been rising and is currently representing a significant percentage of the whole energy consumption on earth. The EU has responded this trend by requiring zero energy consumption by 2020 and by supporting innovative research approaches for improving energy efficiency in buildings without decreasing inhabitants comfort. This paper describes the approach to develop an intelligent system for building specific energy management that allows occupants and facility managers to monitor and control the energy consumption and also detects their wasting points. An ontology based information model for building energy management offering expressive representation and reasoning capability is also introduced in this paper. We highlight an approach to develop the ontology as the knowledge base providing the intelligence of the system. Furthermore we demonstrate how the energy performance analysis is improved using the ontology based approach.},
keywords = {building information modelling, Energy efficient building, ontology engineering, ontology population},
pubstate = {published},
tppubtype = {inproceedings}
}
In recent years, energy consumption in buildings has been rising and is currently representing a significant percentage of the whole energy consumption on earth. The EU has responded this trend by requiring zero energy consumption by 2020 and by supporting innovative research approaches for improving energy efficiency in buildings without decreasing inhabitants comfort. This paper describes the approach to develop an intelligent system for building specific energy management that allows occupants and facility managers to monitor and control the energy consumption and also detects their wasting points. An ontology based information model for building energy management offering expressive representation and reasoning capability is also introduced in this paper. We highlight an approach to develop the ontology as the knowledge base providing the intelligence of the system. Furthermore we demonstrate how the energy performance analysis is improved using the ontology based approach. |