Lack of knowledge and bad implementation during the construction processes risks to affect the benefits of prefab solutions - as components for building envelopes, windows and equipment - for NET Zero Energy buildings. The energy-efficiency potential of the building results often unmet as designed. The gap between the design specification and the As-Built condition is mainly due to the ineffective communication among design, production and construction professionals. The INSITER European project aims to prevent the performance discrepancy developing self-instruction and self-inspection procedures, supported by BIM-based software tools and augmented reality applications. BIM and AR technologies, which have revealed as part of Industry 4.0, play an important role in connecting the virtual design environment with the physical production and construction sites.

Gli edifici a basso consumo energetico presentano frequentemente un gap tra il livello di efficienza energetica stabilito in fase di progettazione e quello in esercizio. Gli strumenti di Realtà Aumentata basati sulla modellazione BIM offrono un efficace supporto in grado di rispettare le previsioni di performance energetica.

Turillazzi, B. (2019). La realtà aumentata nella progettazione, prefabbricazione, costruzione e ispezione di edifici ad alta efficienza energetica. L'UFFICIO TECNICO, 4, 5-10.

La realtà aumentata nella progettazione, prefabbricazione, costruzione e ispezione di edifici ad alta efficienza energetica

Turillazzi B.;Djalali A.;Mariotti C.
2019

Abstract

Lack of knowledge and bad implementation during the construction processes risks to affect the benefits of prefab solutions - as components for building envelopes, windows and equipment - for NET Zero Energy buildings. The energy-efficiency potential of the building results often unmet as designed. The gap between the design specification and the As-Built condition is mainly due to the ineffective communication among design, production and construction professionals. The INSITER European project aims to prevent the performance discrepancy developing self-instruction and self-inspection procedures, supported by BIM-based software tools and augmented reality applications. BIM and AR technologies, which have revealed as part of Industry 4.0, play an important role in connecting the virtual design environment with the physical production and construction sites.
2019
Turillazzi, B. (2019). La realtà aumentata nella progettazione, prefabbricazione, costruzione e ispezione di edifici ad alta efficienza energetica. L'UFFICIO TECNICO, 4, 5-10.
Turillazzi, B., Piaia, E., Djalali, A., Mariotti C.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/686889
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