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Erschienen in:
A Comprehensive Review on Design Approaches of Adaptive Photovoltaic Façade Kapitel lesen Erstes Kapitel lesen

2024 | OriginalPaper | Buchkapitel

Integration of Unmanned Aerial Vehicles and Infrared Thermography in Building Energy Modelling: A Review

verfasst von : M. Jin, M. Cimillo, H. Chung, D. Chow

Erschienen in: Towards a Carbon Neutral Future

Verlag: Springer Nature Singapore

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Abstract

The building sector is responsible for a significant portion of global energy consumption and Building Energy Modelling (BEM) is a vital tool for assessing and improving building energy performance. However, large-scale BEM is hindered by inefficiencies in modelling geometry and thermal characteristics, while Unmanned Aerial Vehicles (UAVs) and Infrared Thermography (IRT) might introduce innovative solutions. This paper aims to review these two emerging technologies from their historical origins to current applications. It summarises previous studies and current and future applications of integrated UAV and IRT in building inspection, diagnosis, and modelling. The main focus is on technologies, protocols and workflows for the generation of the building geometry and the assignment of thermal properties based on automated processes.

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Vorheriges Kapitel The Impact of the University Built Environment on Students’ Mental Health and Well-Being: A Systematic Review
Nächstes Kapitel Fatigue Prediction of Attached Lifting Scaffolding Guide Rails Based on Midas Gen/Abaqus
Literatur
Avdelidis NP, Moropoulou A (2004) Applications of infrared thermography for the investigation of historic structures. J Cult Herit 5:119–127CrossRef
Ballarini I, Corgnati SP, Corrado V (2014) Use of reference buildings to assess the energy saving potentials of the residential building stock: the experience of TABULA project. Energy Policy 68:273–284CrossRef
Bayomi N, Nagpal S, Rakha T, Fernandez JE (2021) Building envelope modeling calibration using aerial thermography. Energy Build 233:110648CrossRef
Benz A, Taraben J, Debus P, Habte B, Oppermann L, Hallermann N, Voelker C, Rodehorst V, Morgenthal G (2021) Framework for a UAS-based assessment of energy performance of buildings. Energy Build 250
Chalal ML, Benachir M, White M, Shrahily R (2016) Energy planning and forecasting approaches for supporting physical improvement strategies in the building sector: a review. Renew Sustain Energy Rev 64:761–776CrossRef
Dochev I, Gorzalka P, Weiler V, Estevam Schmiedt J, Linkiewicz M, Eicker U, Hoffschmidt B, Peters I, Schröter B (2020) Calculating urban heat demands: an analysis of two modelling approaches and remote sensing for input data and validation. Energy Build 226:110378
Drešček U, Fras M, Tekavec J, Lisec A (2020) Spatial ETL for 3D building modelling based on unmanned aerial vehicle data in semi-urban areas. Remote Sens 12:1972CrossRef
Energy US, Baldwin S (2015) Quadrennial technology review: an assessment of energy technologies and research opportunities
Etxepare L, Leon I, Sagarna M, Lizundia I, Uranga EJ (2020) Advanced intervention protocol in the energy rehabilitation of heritage buildings: a Miñones Barracks case study. Sustainability (Switzerland) 12
Ferrando M, Causone F, Hong T, Chen Y (2020) Urban building energy modeling (UBEM) tools: a state-of-the-art review of bottom-up physics-based approaches. Sustain Cities Soc 62:102408CrossRef
Ficco G, Iannetta F, Ianniello E, D’ambrosio Alfano FR, Dell’isola M (2015) U-value in situ measurement for energy diagnosis of existing buildings. Energy Build 104:108–121
Frommholz D, Linkiewicz M, Meißner H, Dahlke D (2017) Reconstructing buildings with discontinuities and roof overhangs from oblique aerial imagery
Garwood TL, Hughes BR, O’Connor D, Calautit JK, Oates MR, Hodgson T (2018) A framework for producing gbXML building geometry from Point Clouds for accurate and efficient building energy modelling. Appl Energy 224:527–537CrossRef
Groesdonk P, Estevam Schmiedt J, Frommholz D, Linkiewicz M, Patel D, Plattner S, Schorn C, Göttsche J, Hoffschmidt B (2019) Remote sensing for building energy simulation input—a field trial
Groesdonk P, Estevam Schmiedt J, Schorn C, Hoffschmidt B (2021a) Automated generation of an energy simulation model for an existing building from UAV imagery. Buildings 11:380
Groesdonk P, Garbasevschi O, Estevam Schmiedt J, Droin A, Linkiewicz M, Wurm M, Hoffschmidt B (2021b) Collecting data for urban building energy modelling by remote sensing and machine learning
Hong T, Chen Y, Luo X, Luo N, Lee SH (2020) Ten questions on urban building energy modeling. Build Environ 168:106508CrossRef
Johari F, Peronato G, Sadeghian P, Zhao X, Widén J (2020) Urban building energy modeling: state of the art and future prospects. Renew Sustain Energy Rev 128
O'grady M, Lechowska A, Harte AM (2017) Quantification of heat losses through building envelope thermal bridges influenced by wind velocity using the outdoor infrared thermography technique. Appl Energy 208
Ocaña S, Cañas I, Gonzalez Requena I (2004) Thermographic survey of two rural buildings in Spain. Energy Build 36:515–523
Rakha T, el Masri Y, Chen K, Panagoulia E, de Wilde P (2022) Building envelope anomaly characterization and simulation using drone time-lapse thermography. Energy Build 259:111754CrossRef
Rakha T, Gorodetsky A (2018) Review of unmanned aerial system (UAS) applications in the built environment: towards automated building inspection procedures using drones. Autom Constr 93:252–264CrossRef
Schönberger J, Frahm J-M (2016) Structure-from-motion revisited
Videras rodríguez M, Melgar SG, Cordero AS, Márquez JMA (2021) A critical review of unmanned aerial vehicles (UAVs) use in architecture and urbanism: scientometric and bibliometric analysis 11:9966
Metadaten
Titel
Integration of Unmanned Aerial Vehicles and Infrared Thermography in Building Energy Modelling: A Review
verfasst von
M. Jin
M. Cimillo
H. Chung
D. Chow
Copyright-Jahr
2024
Verlag
Springer Nature Singapore
Buch
Towards a Carbon Neutral Future

Print ISBN: 978-981-9979-64-6

Electronic ISBN: 978-981-9979-65-3

Copyright-Jahr: 2024

DOI
https://doi.org/10.1007/978-981-99-7965-3_15