A procedural technique for thermal simulation and visualization in urban environments

Ahmad T, Chen H (2018). Short and medium-term forecasting of cooling and heating load demand in building environment with data-mining based approaches. Energy and Buildings, 166: 460–476.

Alados I, Foyo-Moreno I, Alados-Arboledas L (2012). Estimation of downwelling longwave irradiance under all-sky conditions. International Journal of Climatology, 32: 781–793.

Beckers B (2012). Solar Energy at Urban Scale. Hoboken, NJ, USA: John Wiley & Sons.

Beckers B, Beckers P (2014). Sky vault partition for computing daylight availability and shortwave energy budget on an urban scale. Lighting Research & Technology, 46: 716–728.

Beckers B, Aguerre JP, Besuievsky G, Fernández E, Nevado EG, Laborderie C, Nahon R (2019). Visualizing the infrared response of an urban canyon throughout a sunny day. In: Sayigh A (ed), Sustainable Building for a Cleaner Environment. Cham, Switzerland: Springer. pp. 277–284.

Chen S, Rushmeier HE, Miller G, Turner D (1991). A progressive multi-pass method for global illumination. ACM SIGGRAPH Computer Graphics, 25: 165–174.

CitySim (2017). Citysim software. Available at http://citysim.epfl.ch .

Clark G, Allen C (1978). The estimation of atmospheric radiation for clear and cloudy skies. In: Proceedings of the 2nd National Passive Solar Conference (AS/ISES), Philadelphia, PA, USA, pp. 675–678.

Clarke J, Hand J, Strachan P, Hensen J, Pernot C (1991). ESP-r: A building and plant energy simulation research environment. Energy Simulation Research Unit, ESRU Manual U 91.

Clarke J (2001). Energy Simulation in Building Design, 2nd edn. Oxford, UK: Butterworth-Heinemann.

Crawley DB, Lawrie LK, Winkelmann FC, Buhl WF, Huang YJ, Pedersen CO, Strand RK, Liesen RJ, Fisher DE, Witte MJ, Glazer J (2001). EnergyPlus: Creating a new-generation building energy simulation program. Energy and Buildings, 33: 319–331.

DOE (1982). DOE-2, Engineer Manual—Version 2.1 a. Berkeley, USA: University of California.

Eley (2001). VisualDOE 3.0 Program Documentation. San Francisco: Eley Associates.

Elwy I, Ibrahim Y, Fahmy M, Mahdy M (2018). Outdoor microclimatic validation for hybrid simulation workflow in hot arid climates against ENVI-met and field measurements. Energy Procedia, 153: 29–34.

EnergySoft (2016). EnergyPro 5. User’s Manual.

ESRU (2017). ESRU home page. Available at http://www.esru.strath.ac.uk .

Evangelisti L, Guattari C, Asdrubali F (2019). On the sky temperature models and their influence on buildings energy performance: A critical review. Energy and Buildings, 183: 607–625.

Fabi V, Andersen RV, Corgnati SP, Olesen BW (2013). A methodology for modelling energy-related human behaviour: Application to window opening behaviour in residential buildings. Building Simulation, 6: 415–427.

Fairey P, Vieira RK, Parker DS, Hanson B, Broman PA, Grant JB, Fuehrlein B, Gu L (2002). EnergyGauge USA: A residential building energy simulation design tool. In: Proceedings of the 13th Symposium on Improving Building Systems in Hot and Humid Climates, Houston, TX, USA.

Fraisse G, Viardot C, Lafabrie O, Achard G (2002). Development of a simplified and accurate building model based on electrical analogy. Energy and Buildings, 34: 1017–1031.

Harish VSKV, Kumar A (2016). A review on modeling and simulation of building energy systems. Renewable and Sustainable Energy Reviews, 56: 1272–1292.

Hirsch J, et al. (2010) eQUEST: Introductory Tutorial, Version 3.63. Camarillo, CA, USA.

Kämpf JH, Robinson D (2007). A simplified thermal model to support analysis of urban resource flows. Energy and Buildings, 39: 445–453.

Kaushika ND, Mishra A, Rai AK (2018). Solar radiation characteristics. In: Solar Photovoltaics. Cham, Switzerland: Springer. pp. 15–26.

Khan B, Forkel R, Banzhaf S, Russo E, Kanani-Sühring F, Mauder M, Kurppa M, Maronga B, Raasch S, Ketelsen K (2018). Development and application of an online coupled chemistry urban microscale model PALM-4U. In: EGU General Assembly Conference Abstracts, vol. 20, p. 7501.

Kong Q, He X, Jiang Y (2017). Fast simulation of dynamic heat transfer through building envelope via model order reduction. Building Simulation, 10: 419–429.

Lavery NP (2007). Mathematical framework for predicting solar thermal build-up of spectrally selective coatings at the Earth’s surface. Applied Mathematical Modelling, 31: 1635–1651.

Levine S (2015). Temperature simulation in residential building by use of electrical circuits. Technical Report, Washington University in St. Louis.

Lewis RW, Nithiarasu P, Seetharamu KN (2004). Fundamentals of the Finite Element Method for Heat and Fluid Flow. Chichester, UK: John Wiley & Sons.

Lindberg F, Grimmond C (2018). Solweig. Available at https://umep-docs.readthedocs.io/en/latest/OtherManuals/SOLWEIG.html

Matzarakis A, Matuschek O (2010). Skyhelios. Available at https://www.urbanclimate.net/skyhelios/description.htm

Matzarakis A, Fröhlich D, Gangwisch M, Ketterer C, Peer A (2015). Developments and applications of thermal indices in urban structures by Rayman and Skyhelios model. In: Proceedings of the 9th International Conference on the Urban Climate (ICUC9), Toulouse, France.

Matzarakis A, Matuschek O (2017). Rayman. Available at https://www.urbanclimate.net/rayman/

Muñoz D, Beckers B, Besuievsky G, Patow G (2018). A technique for massive sky view factor calculations in large cities. International Journal of Remote Sensing, 39: 4040–4058.

Nahon R (2017). Modélisation des échanges radiatifs à l’échelle urbaine pour un urbanisme bioclimatique. PhD Thesis, Université de Lille 1 - Sciences et Technologies, France.

SideFX (2018). Houdini. Available at http://www.sidefx.com

Sillion F, Puech C (1994). Radiosity and Global Illumination. Eurographics Technical Report Series. San Francisco, USA: Morgan Kaufmann Publishers.

Sparrow EM (2018). Radiation Heat Transfer, Augmented Edition. Abingdon, UK: Routledge.

Venturini G (2013). Ahkab, a spice-like electronic circuit simulator written in python. Available at https://ahkab.github.io/ahkab/

Yan D, Xia J, Tang W, Song F, Zhang X, Jiang Y (2008). DeST — An integrated building simulation toolkit Part I: Fundamentals. Building Simulation, 1: 95–110.

Zakšek K, Oštir K, Kokalj Ž (2011). Sky-view factor as a relief visualization technique. Remote Sensing, 3: 398–415.

Zhu D, Hong T, Yan D, Wang C (2013). A detailed loads comparison of three building energy modeling programs: EnergyPlus, DeST and DOE-2.1E. Building Simulation, 6: 323–335.