A collaborative platform integrating multi-physical and neighborhood-aware building performance analysis driven by the optimized HOLISTEEC building design methodology

H. Pruvost, R. J. Scherer, K. Linhard, G. Dangl, S. Robert, D. Mazza, A. Mediavilla Intxausti, D. Van Maercke, E. Michaelis, G. Kira, T. Häkkinen, E. Delponte, C. Ferrando

Research output: Chapter in Book/Report/Conference proceedingConference article in proceedingsScientificpeer-review

Abstract

The paper presents the technical developments made in the course of the HOLISTEEC project. HOLISTEEC is an EU FP7 project whose objective is to first, formalize a new optimized building design methodology, and second, to develop the software platform and modules that implement that design methodology. The paper focuses on the developments made on that software infrastructure that shall at the end of the project provide a BIM-based collaborative platform supporting the optimization of the building design in terms of performances and also enhancing the building design process itself. As an important driver for that optimized methodology the project sets a focus on the consideration of interactions between the building and its neighborhood as well as multi-physical aspects including energy, acoustics, lighting and environmental impact.

Original languageEnglish
Title of host publicationeWork and eBusiness in Architecture, Engineering and Construction - Proceedings of the 11th European Conference on Product and Process Modelling, ECPPM 2016
PublisherCRC Press
Pages339-348
Number of pages10
ISBN (Print)9781138032804
Publication statusPublished - 1 Jan 2016
MoE publication typeA4 Article in a conference publication
Event11th European Conference on Product and Process Modelling, ECPPM 2016 - Limassol, Cyprus
Duration: 7 Sep 20169 Sep 2016
Conference number: 11

Conference

Conference11th European Conference on Product and Process Modelling, ECPPM 2016
Abbreviated titleECPPM 2016
CountryCyprus
CityLimassol
Period7/09/169/09/16

Fingerprint

Design Methodology
Performance Analysis
Software
Design Process
Driver
Acoustics
Infrastructure
Module
Optimization
Methodology
Energy
Interaction
Environmental impact
Lighting
Design

Cite this

Pruvost, H., Scherer, R. J., Linhard, K., Dangl, G., Robert, S., Mazza, D., ... Ferrando, C. (2016). A collaborative platform integrating multi-physical and neighborhood-aware building performance analysis driven by the optimized HOLISTEEC building design methodology. In eWork and eBusiness in Architecture, Engineering and Construction - Proceedings of the 11th European Conference on Product and Process Modelling, ECPPM 2016 (pp. 339-348). CRC Press.
Pruvost, H. ; Scherer, R. J. ; Linhard, K. ; Dangl, G. ; Robert, S. ; Mazza, D. ; Mediavilla Intxausti, A. ; Van Maercke, D. ; Michaelis, E. ; Kira, G. ; Häkkinen, T. ; Delponte, E. ; Ferrando, C. / A collaborative platform integrating multi-physical and neighborhood-aware building performance analysis driven by the optimized HOLISTEEC building design methodology. eWork and eBusiness in Architecture, Engineering and Construction - Proceedings of the 11th European Conference on Product and Process Modelling, ECPPM 2016. CRC Press, 2016. pp. 339-348
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Pruvost, H, Scherer, RJ, Linhard, K, Dangl, G, Robert, S, Mazza, D, Mediavilla Intxausti, A, Van Maercke, D, Michaelis, E, Kira, G, Häkkinen, T, Delponte, E & Ferrando, C 2016, A collaborative platform integrating multi-physical and neighborhood-aware building performance analysis driven by the optimized HOLISTEEC building design methodology. in eWork and eBusiness in Architecture, Engineering and Construction - Proceedings of the 11th European Conference on Product and Process Modelling, ECPPM 2016. CRC Press, pp. 339-348, 11th European Conference on Product and Process Modelling, ECPPM 2016, Limassol, Cyprus, 7/09/16.

A collaborative platform integrating multi-physical and neighborhood-aware building performance analysis driven by the optimized HOLISTEEC building design methodology. / Pruvost, H.; Scherer, R. J.; Linhard, K.; Dangl, G.; Robert, S.; Mazza, D.; Mediavilla Intxausti, A.; Van Maercke, D.; Michaelis, E.; Kira, G.; Häkkinen, T.; Delponte, E.; Ferrando, C.

eWork and eBusiness in Architecture, Engineering and Construction - Proceedings of the 11th European Conference on Product and Process Modelling, ECPPM 2016. CRC Press, 2016. p. 339-348.

Research output: Chapter in Book/Report/Conference proceedingConference article in proceedingsScientificpeer-review

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AB - The paper presents the technical developments made in the course of the HOLISTEEC project. HOLISTEEC is an EU FP7 project whose objective is to first, formalize a new optimized building design methodology, and second, to develop the software platform and modules that implement that design methodology. The paper focuses on the developments made on that software infrastructure that shall at the end of the project provide a BIM-based collaborative platform supporting the optimization of the building design in terms of performances and also enhancing the building design process itself. As an important driver for that optimized methodology the project sets a focus on the consideration of interactions between the building and its neighborhood as well as multi-physical aspects including energy, acoustics, lighting and environmental impact.

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Pruvost H, Scherer RJ, Linhard K, Dangl G, Robert S, Mazza D et al. A collaborative platform integrating multi-physical and neighborhood-aware building performance analysis driven by the optimized HOLISTEEC building design methodology. In eWork and eBusiness in Architecture, Engineering and Construction - Proceedings of the 11th European Conference on Product and Process Modelling, ECPPM 2016. CRC Press. 2016. p. 339-348