NEXT.COM will develop a frontier breakthrough of comfort investigation, by testing and validating a brand new multiphysics, multidomain and multisensorial comfort experimental protocol (hereinafter whole-comfort) and exhaustive analytic interpretation model. A novel approach will be theorized and experimentally and numerically demonstrated, in order to investigate and identify the key human comfort drivers that are able to determine personal perception in the built environment and, consequently, to trigger energy-related occupancy behaviour, reducing energy needs and improving wellbeing conditions. A large data collection of personal surveys and experimental field campaigns will be carried out, while integrating the key results elaborated within physical environments (test-room and real buildings) and re-created environmental conditions (based on augmented and virtual reality) in several geoclusters. Then, a data-driven modelling approach will be proposed by identifying the key variables and eventually widening the boundary of the physical-only based comfort model. Therefore, an exhaustive, open-data, reliable sensitivity analysis and final elaboration will be done. Such whole-comfort interpretation model, mainly data-driven, will be exploited for further integration into ready-to-use and customized dynamic building energy simulation tools in order to asses also the potentialities of the approach in terms of energy efficiency targets in new and existing buildings.

PRIN -2017 NEXT.COM - The NEXT generation of multiphysics and multidomain environmental COMfort models: theory elaboration and validation experiment / Buonomano, Annamaria; Leso, Veruscka. - (2019). (Intervento presentato al convegno NEXT.COM -The NEXT generation of multiphysics and multidomain environmental COMfort models: theory elaboration and validation experiment nel 2019).

PRIN -2017 NEXT.COM - The NEXT generation of multiphysics and multidomain environmental COMfort models: theory elaboration and validation experiment

Buonomano Annamaria
;
Leso Veruscka
2019

Abstract

NEXT.COM will develop a frontier breakthrough of comfort investigation, by testing and validating a brand new multiphysics, multidomain and multisensorial comfort experimental protocol (hereinafter whole-comfort) and exhaustive analytic interpretation model. A novel approach will be theorized and experimentally and numerically demonstrated, in order to investigate and identify the key human comfort drivers that are able to determine personal perception in the built environment and, consequently, to trigger energy-related occupancy behaviour, reducing energy needs and improving wellbeing conditions. A large data collection of personal surveys and experimental field campaigns will be carried out, while integrating the key results elaborated within physical environments (test-room and real buildings) and re-created environmental conditions (based on augmented and virtual reality) in several geoclusters. Then, a data-driven modelling approach will be proposed by identifying the key variables and eventually widening the boundary of the physical-only based comfort model. Therefore, an exhaustive, open-data, reliable sensitivity analysis and final elaboration will be done. Such whole-comfort interpretation model, mainly data-driven, will be exploited for further integration into ready-to-use and customized dynamic building energy simulation tools in order to asses also the potentialities of the approach in terms of energy efficiency targets in new and existing buildings.
2019
PRIN -2017 NEXT.COM - The NEXT generation of multiphysics and multidomain environmental COMfort models: theory elaboration and validation experiment / Buonomano, Annamaria; Leso, Veruscka. - (2019). (Intervento presentato al convegno NEXT.COM -The NEXT generation of multiphysics and multidomain environmental COMfort models: theory elaboration and validation experiment nel 2019).
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/881846
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