Advanced search
Publication Cover
Journal of Building Performance Simulation Volume 5, 2012 - Issue 4
Submit an article Journal homepage
3,815
Views
91
CrossRef citations to date
0
Altmetric
Articles

State of the art in lighting simulation for building science: a literature review

Carlos E. Ochoa Department of Architecture, Building and Planning, Eindhoven University of Technology, P.O. Box 513, Eindhoven, 5600 MB, the NetherlandsCorrespondence[email protected]
,
Myriam B.C. Aries Department of Architecture, Building and Planning, Eindhoven University of Technology, P.O. Box 513, Eindhoven, 5600 MB, the Netherlands
&
Jan L.M. Hensen Department of Architecture, Building and Planning, Eindhoven University of Technology, P.O. Box 513, Eindhoven, 5600 MB, the Netherlands
Pages 209-233 | Received 07 Jul 2010, Accepted 11 Jan 2011, Published online: 14 Apr 2011

References

  • Aliakseyeu , D. , Martens , J.-B. and Rauterberg , M. 2006 . Acomputer support tool for the early stages of architectural design . Interacting with Computers , 18 : 528 – 555 .
  • Al-Shareef , F. M. , Oldham , D. J. and Carter , D. J. 2001 . Acomputer model for predicting the daylight performance of complex parallel shading systems . Building and Environment , 36 ( 5 ) : 605 – 618 .
  • Alzoubi , H. H. and Alshboul , A. A. 2010 . Low energy architecture and solar rights: restructuring urban regulations, view from Jordan . Renewable Energy , 35 ( 2 ) : 333 – 342 .
  • Andersen , M. and de Boer , J. 2006 . Goniophotometry and assessment of bidirectional photometric properties of complex fenestration systems . Energy and Buildings , 38 : 836 – 848 .
  • Andersen , M. 2001 . Experimental assessment of bi-directional transmission distribution functions using digital imaging techniques . Energy and Buildings , 33 : 417 – 431 .
  • Andersen , M. 2005 . Bi-directional transmission properties of venetian blinds: experimental assessment compared to ray-tracing calculations . Solar Energy , 78 : 187 – 198 .
  • Andersen , M. 2008 . An intuitive daylighting performance analysis and optimization approach . Building Research and Information , 36 ( 6 ) : 593 – 607 .
  • Anselmo , F. 2008 . Radmap routine [online] Available from: bozzograo.net/radiance/ [Accessed April 2010
  • Apian-Bennewitz , P. 1998 . Computer-oriented building design: advances in daylighting and thermal simulation tools . Renewable Energy , 1–4 : 351 – 356 .
  • Ashmore , J. and Richens , P. 2001 . Computer simulation in daylight design: a comparison . Architectural Science Review , 44 : 33 – 44 .
  • Athienitis , A. K. and Tzempelikos , A. 2002 . A methodology for simulation of daylight room illuminance distribution and light dimming for a room with a controlled shading device . Solar Energy , 72 : 271 – 282 .
  • Attia , S. “Architect friendly”: a comparison of ten different building performance simulation tools . Proceedings of 11th international IBPSA conference . pp. 204 – 211 . International Building Performance Simulation Association .
  • Autodesk . 2010a . 3D Studio Max Design [online documentation] Available from: autodesk.com [Accessed April 2010]
  • Autodesk . 2010b . Ecotect [online documentation] Available from: autodesk.com [Accessed April 2010]
  • Bleicher , T. 2009 . su2rad plug-in [online documentation] Available from: code.google.com/p/su2rad/ [Accessed April 2010]
  • Bleil de , Souza C. 2009 . A critical and theoretical analysisofcurrent proposals for integrating building thermal simulation tools into the building design process . Journal of Building Performance Simulation , 2 ( 4 ) : 283 – 297 .
  • de Boer , J. 2006 . Modelling indoor illumination by complex fenestration systems based on bidirectional photometric data . Energy and Buildings , 38 : 849 – 868 .
  • Bosilj-Vuksic , V. , Ceric , V. and Hlupic , V. 2007 . Criteria for the evaluation of business process simulation tools . Interdisciplinary Journal of Information, Knowledge, and Management , 2 : 73 – 88 .
  • Bourgeois , D. , Reinhart , C. F. and Macdonald , I. 2006 . Adding advanced behavioural models in whole building energy simulation: a study on the total energy impact ofmanual and automated lighting control . Energy and Buildings , 38 : 814 – 823 .
  • Breault Research Organization . 2010 . Project applications [online] Available from: www.breault.com/software/asap-projectapps.php [Accessed November 2010
  • Bund , S. and Do , E. Y.-L. 2005 . SPOT! Fetch light Interactive navigable 3D visualization of direct sunlight . Automation in Construction , 14 : 181 – 188 .
  • Capeluto , I. G. 2003 . The influence of the urban environment on the availability of daylighting in office buildings in Israel . Building and Environment , 38 ( 5 ) : 745 – 752 .
  • Capeluto , I. G. 2010 . SunTools [online] Available from: www.technion.ac.il/∼arrguedi/SunTools/download.html [Accessed May 2010]
  • Capeluto , I. G. and Shaviv , E. 2001 . On the use of “solar volume” for determining the urban fabric . Solar Energy , 70 ( 3 ) : 275 – 280 .
  • Capeluto , I. G. , Yezioro , A. and Shaviv , E. 2003 . Climatic aspects in urban design – a case study . Building and Environment , 38 ( 6 ) : 827 – 835 .
  • Capeluto , I. G. From computer models to simple design tools: solar rights in the design of urban streets . Proceedings of 9th international IBPSA conference . pp. 131 – 138 . International Building Performance Simulation Association .
  • Capeluto , I. G. Solar rights in the design of urban spaces . Proceedings of 23rd conference on passive and low energy architecture (PLEA) . pp. I-689 Universite de Geneve .
  • Carroll , W. L. 1999 . Daylighting simulation: methods, algorithms and resources Report IEA SHC Task 21/Lawrence Berkeley National Laboratory LBNL-44296. Available from: www.osti.gov/bridge [Accessed November 2010]
  • Charles , P. P. and Thomas , C. R. 2009 . Four approaches to teaching with building performance simulation tools in undergraduate architecture and engineering education . Journal of Building Performance Simulation , 2 ( 2 ) : 95 – 114 .
  • Christakou , D. E. and Amorim , C. N.D. Daylighting simulation: comparison of softwares for architect's utilization . Proceedings of 9th international IBPSA conference . pp. 183 – 190 . International Building Performance Simulation Association .
  • CIE, Commission Internationale de L'Ecleraige . 2006 . Test cases to assess the accuracy of lighting computer programs, Publication 171 , Vienna , Austria : CIE .
  • Citherlet , S. , Clarke , J. A. and Hand , J. 2001 . Integration in building physics simulation . Energy and Buildings , 33 : 451 – 461 .
  • Citherlet , S. and Hand , J. 2002 . Assessing energy, lighting, room acoustics, occupant comfort and environmental impacts performance of building with a single simulation program . Building and Environment , 37 : 845 – 856 .
  • Clear , R. D. , Inkarojrit , V. and Lee , E. S. 2006 . Subject responses to electrochromic windows . Energy and Buildings , 38 ( 7 ) : 758 – 779 .
  • Compagnon , R. 2004 . Solar and daylight availability in the urban fabric . Energy and Buildings , 36 ( 4 ) : 321 – 328 .
  • Crawley , D. B. What next for building energy simulation – a glimpse of the future . Proceedings of 5th international IBPSA conference . pp. 97 – 92 . International Building Performance Simulation Association .
  • Crawley , D. B. 2004 . EnergyPlus: new, capable, and linked . Journal of Architectural and Planning Research , 21 ( 4 ) : 292 – 302 .
  • Crawley , D. B. 2008 . Contrasting the capabilities of building energy performance simulation programs . Building and Environment , 43 : 661 – 673 .
  • Cutler , B. 2008 . Interactive selection of optimal fenestration materials for schematic architectural daylighting design . Automation in Construction , 17 ( 7 ) : 809 – 823 .
  • Daum , D. and Morel , N. 2010 . Identifying important state variables for a blind controller . Building and Environment , 45 : 887 – 900 .
  • David , M. 2010 . A method to generate typical meteorological years from raw hourly climatic databases . Building and Environment , 45 : 1722 – 1732 .
  • Debevec , P. E. and Malik , J. Recovering high dynamic range radiance maps from photographs . Proceedings of 24th annual conference on computer graphics and interactive techniques . pp. 369 – 378 . SIGGRAPH. New York: ACM Press/Addison-Wesley Publishing Co
  • Debevec , P. E. , Taylor , C. J. and Malik , J. Modelling and rendering architecture from photographs: a hybrid geometry- and image-based approach . Proceedings of23rd annual conference on computer graphics and interactive techniques . pp. 11 – 20 . SIGGRAPH. New York: ACM
  • Degelman , L. O. Model for simulation of daylighting and occupancy sensors as an energy control stratgy for office buildings . Proceedings of 6th international IBPSA conference . International Building Performance Simulation Association .
  • de Wilde , P. and Prickett , D. Preconditions for the use of simulation in M&E Engineering . Proceedings of 11th international IBPSA conference . pp. 414 – 419 . Glasgow, Scotland: International Building Performance Simulation Association
  • DIAL GmbH . 2010 . DIALux [online documentation] Available from: dial.de [Accessed April 2010]
  • Diepens , J. , Bakker , F. and Zonneveldt , L. 2000 . Daylight design variations book [online] Available from: sts.bwk.tue.nl/daylight/varbook/index.htm [Accessed November 2010]
  • Dobrre , O. and Achard , G. Optical simulation of lighting by hollow light pipes . Proceedings of 9th international IBPSA conference . pp. 263 – 270 . International Building Performance Simulation Association .
  • Doulos , L. , Tsangrassoulis , A. and Topalis , F. Acritical review of simulation techniques for daylight responsive systems . Proceedings dynamic analysis, simulation and testing applied to the energy and environmental performance of buildings . pp. 1 – 14 . DYNASTEE .
  • Drago , F. and Myszkowski , K. 2001 . Validation proposal for global illumination and rendering techniques . Computers & Graphics , 25 : 511 – 518 .
  • Dutre , P. , Bala , K. and Bekaert , P. 2006 . Advanced global illumination. , 2nd ed , Natick , MA : A.K. Peters, Ltd .
  • Dutton , S. and Shao , L. 2007 . Raytracing simulation for predicting light pipe transmittance . International Journal of Low Carbon Technologies , 2–4 : 339 – 358 .
  • Ehrlich , C. Simulating the operation of photosensor-based lighting controls . Proceedings of 7th international IBPSA conference . pp. 857 – 864 . International Building Performance Simulation Association .
  • Eissa , H. and Mahdavi , A. On the potential of computationally rendered scenes for lighting quality evaluation . Proceedings of 7th international IBPSA conference . pp. 797 – 804 . International Building Performance Simulation Association .
  • ESRU, Energy Systems Research Unit, University ofStrathclyde . 2010 . ESP-r Capabilities [online] Availablefrom: www.esru.strath.ac.uk/Programs/ESP-r_capabilities/bld.html [Accessed May 2010]
  • Esteco . 2010 . modeFRONTIER V4.0 [online documentation] Available from: esteco.com [Accessed May 2010]
  • Farrel , A. J. , Norton , B. and Kennedy , D. 2004 . “ Lightpipe daylight simulation modelling using Radiance backwardand forward ray tracing methods: a comparison with monitored data for commercial lightpipes in Ireland ” . In Third radiance workshop Fribourg , Switzerland [online] Available from: www.radiance-online.org/radiance-workshop3/cd/Farrell_paper.pdf [Accessed May 2010]
  • FIBP, Fraunhofer Institut für Bauphysik . 2002 . ADELINE 3.0 [online] Available from: www.ibp.fhg.de/wt/adeline/ [Accessed May 2010]
  • Fisher , A. Tolerances in lighting design . Proceedings of the CIE seminar on computer programs for light and lighting . CIE .
  • Fontoynont , M. 1999 . Validation of daylighting computer programs IEA SHC Task 21/ECBCS Annex 29, 28pp
  • Freewan , A. A. 2010 . Maximizing the lightshelf performance by interaction between lightshelf geometries and a curved ceiling . Energy Conversion and Management , 51 : 1600 – 1604 .
  • Galasiu , A. D. and Atif , M. R. 2002 . Applicability of daylighting computer modeling in real case studies: comparison between measured and simulated daylight availability and lighting consumption . Building and Environment , 37 ( 4 ) : 363 – 377 .
  • Galitz , W. O. 2007 . The essential guide to user interface design, , 3rd ed , New York : John Wiley & Sons, Inc .
  • Ghisi , E. and Tinker , J. A. 2005 . An ideal window area concept for energy efficient integration of daylight and artificial light in buildings . Building and Environment , 40 ( 1 ) : 51 – 61 .
  • Glaser , D. C. 2004 . Towards an algebra for lightingsimulation . Building and Environment , 39 : 895 – 903 .
  • Gomez-Muñoz , V. M. , Porta-Gandara , M. A. and Fernandez , J. L. 2010 . Effect of tree shades in urban planning in hot-arid climatic regions . Landscape and Urban Planning , 94 ( 3–4 ) : 149 – 157 .
  • Goral , C. M. Modelling the interaction of light between diffuse surfaces . Proceedings of 11th annual conference on computer graphics and interactive techniques . pp. 213 – 222 . SIGGRAPH. New York: ACM
  • Greenup , P. J. and Edmonds , I. R. 2004 . Test room measurements and computer simulations of the micro-light guiding shade daylight redirecting device . Solar Energy , 76 : 99 – 109 .
  • Grynberg , A. 1989 . Validation of Radiance , Berkeley , CA : Lawrence Berkeley Laboratories . Document ID 1575
  • Guglielmetti , R. , Pless , S. and Torcellini , P. A. On the use of integrated daylighting and energy simulations to drive the design of a large net-zero energy office building . Conference paper NREL/CP–550–4752, presented at SimBuild 2010 . Available from: www.osti.gov/bridge [Accessed November 2010]
  • Guillemin , A. and Morel , N. 2001 . An innovative lighting controller integrated in a self-adaptive building control system . Energy and Buildings , 33 : 477 – 487 .
  • Hand , J. W. 2008 . Improving non-geometric data available to simulation programs . Building and Environment , 43 ( 4 ) : 674 – 685 .
  • Hayman , S. 2003 . Daylight measurement error . Lighting Research and Technology , 35 ( 2 ) : 101 – 110 .
  • Herkel , S. , Knapp , U. and Pfafferott , J. 2008 . Towards a model of user behaviour regarding the manual control of windows in office buildings . Building and Environment , 43 : 588 – 600 .
  • Hien , W. N. , Lam , K. P. and Feriadi , H. 2003 . Computer-based performance simulation for building design and evaluation: the Singapore perspective . Simulation and Gaming , 34 : 457 – 477 .
  • Hirata , M. , Gama , H. and Nakamura , H. Improvement of accuracy in lighting simulation by flux transfer method . Proceedings of 6th international IBPSA conference . pp. PB-02 International Building Performance Simulation Association .
  • Hitchcock , R. J. Advancing lighting and daylighting simulation: the transition from analysis to design aid tools . Proceedings of 4th international IBPSA conference . International Building Performance Simulation Association . LBL Report 37285. Available from: www.osti.gov/bridge [Last accessed 1 April 2010]
  • Hitchcock , R. J. and Carroll , W. L. DElight: a daylighting and electric lighting simulation engine . Proceedings of8th international IBPSA conference . pp. 483 – 489 . International Building Performance Simulation Association .
  • Hoes , P. 2009 . User behavior in whole building simulation . Energy and Buildings , 41 ( 3 ) : 295 – 302 .
  • Hong , T. , Chou , S. K. and Bong , T. Y. 2000 . Building simulation: an overview of developments and information sources . Building and Environment , 35 : 347 – 361 .
  • van Hoof , J. 2009 . Ambient bright light in dementia: effects on behavior and circadian rhythmicity . Building and Environment , 44 : 146 – 155 .
  • Huang , Y. C. , Lam , K. P. and Dobbs , G. A scalable lighting simulation tool for integrated building design . Third national conference of IBPSA-USA . pp. 206 – 213 . SimBuild .
  • Hviid , C. H. , Nielsen , T. R. and Svedsen , S. 2008 . Simple tool to evaluate the impact of daylight on building energy consumption . Solar Energy , 82 ( 9 ) : 787 – 798 .
  • Ibarra , D. I. and Reinhart , C. F. Daylight Factor Simulations -How close do simulation beginners ‘really’ get? . Proceedings of 11th international IBPSA conference . pp. 196 – 203 . International Building Performance Simulation Association .
  • IESVE, Integrated Environmental Solutions . 2010 . RadianceIES [online] Available from: www.iesve.com [Accessed April 2010]
  • Inanici , M. N. Transformation of high dynamic images into virtual lighting laboratories . Proceedings of 8th international IBPSA conference . pp. 539 – 546 . International Building Performance Simulation Association .
  • Inanici , M. N. 2005 . Per-Pixel lighting data analysis , Environmental Energy Technologies Division, Department of Building Technologies, Lighting Research Group, Lawrence Berkeley Laboratory Report [online] . Available from: gaia.lbl.gov/btech/papers/58659.pdf [Accessed April 2010]
  • Inkarojrit , V. Multivariate predictive window blind control models for intelligent building facade systems . Proceedings of 10th international IBPSA conference . pp. 787 – 794 . International Building Performance Simulation Association .
  • Integra, Inc . 2010 . Inspirer [online] Available from: www.integra.jp [Accessed April 2010]
  • Janak , M. Coupling building energy and lighting simulation . Proceedings of 5th international IBPSAconference . pp. P-036 International Building Performance Simulation Association .
  • Janak , M. Integrated building energy and lighting simulation in the framework of EU PV-light project . Proceedings of 11th international IBPSA conference . pp. 1671 – 1677 . International Building Performance Simulation Association .
  • Jensen , H. W. Global illumination using photon maps . Rendering techniques 96: proceedings of 7th eurographics workshop on rendering . pp. 21 – 30 . Springer .
  • Joarder , M. A.R. A simulation assessment of the height of light shelves to enhance daylighting quality in tropical office buildings under overcast sky conditions in Dhaka, Bangladesh . Proceedings of 11th international IBPSA conference . pp. 1706 – 1713 . International Building Performance Simulation Association .
  • Jonsson , A. and Roos , A. 2010 . Evaluation of control strategies for different smart window combinations using computer simulations . Solar Energy , 84 ( 1 ) : 1 – 9 .
  • Kabre , C. 1999 . WINSHADE: A computer design tool for solar control . Building and Environment , 34 : 263 – 274 .
  • Kajiya , J. T. 1986 . The rendering equation . ACM SIGGRAPH Computer Graphics , 20 : 143 – 150 .
  • Khodulev , A. B. and Kopylov , E. A. 1996 . Physically accurate lighting simulation in computer graphics software [online] Available from: www.keldysh.ru/pages/cgraph/articles/pals/index.htm [Accessed April 2010]
  • Kim , D.-W. and Park , C. S. Manual vs. optimal control of exterior and interior blind systems . Proceedings of 11th international IBPSA conference . pp. 1663 – 1670 . International Building Performance Simulation Association .
  • Kniss , J. A. 2003 . A model for volume lighting and modelling . IEEE Transactions on Visualization and Computer Graphics , 9 ( 2 ) : 150 – 162 .
  • Knowles , R. L. and Berry , R. D. 1980 . Solar envelope concepts: moderate density building applications , Golden , Colorado : Solar Energy Research Institute .
  • Koo , S. Y. , Yeo , M. S. and Kim , K. W. 2010 . Automated blind control to maximize the benefits of daylight in buildings . Building and Environment , 45 ( 6 ) : 1508 – 1520 .
  • Krishnaswamy , A. , Baranoski , G. V.G. and Rokne , J. G. 2002 . Virtual goniophotometric measurements protocol , University of Waterloo Technical Report CS-2002-21 [online] Available from: http://www.aravind.ca/doc/gonio-rep.pdf [Accessed 1 May 2010] .
  • Labayrade , R. , Jensen , H. W. and Jensen , C. Validation of Velux Daylight Visualizer 2 against CIE 171: 2006 test cases . Proceedings of 11th international IBPSA conference . pp. 1506 – 1513 . International Building Performance Simulation Association .
  • Lafortune , E. 1995 . Mathematical models and Monte Carlo algorithms for physically based rendering , Leuven , Belgium : Katholieke University, c.150pp . Thesis (PhD)
  • Lafortune , E. P. and Willems , Y. D. Bi-directional path tracing . Proceedings of the 3rd international conference on computational graphics and visualization techniques . pp. 145 – 153 . Compugraphics .
  • Lam , K. P. Occupancy detection through an extensive environmental sensor network in an open-plan office building . Proceedings of 11th international IBPSA conference . pp. 1452 – 1459 . International Building Performance Simulation Association .
  • LBL, Lawrence Berkeley Laboratory . 2000 . Desktop Radiance [online] Available from: radsite.lbl.gov/deskrad/ [Accessed April 2010]
  • LBL, Lawrence Berkeley Laboratory . 2010a . Radiance 4.0 [online] Available from: radsite.lbl.gov/radiance/ [Accessed April 2010]
  • LBL, Lawrence Berkeley Laboratory . 2010b . Genopt [online] Available from: gundog.lbl.gov/GO/ [Accessed May 2010]
  • LBL, Lawrence Berkeley Laboratory . 2010c . Radiance picture format [online] Available from: radsite.lbl.gov/radiance/refer/Notes/picture_format.html [Accessed May 2010]
  • LBL, Lawrence Berkeley Laboratory . 2010d . Radiance method of solution [online] Available from: http://radsite.lbl.gov/radiance/refer/long.html#Method [Accessed May 2010]
  • LBL, Lawrence Berkeley Laboratory . 2010e . Virtual lighting simulator [online] Available from: gaia.lbl.gov/vls/ [Accessed May 2010]
  • LBL, Lawrence Berkeley Laboratory . 2010f . WINDOW 6 and Optics5 [online] Available from: windows.lbl.gov/software/ [Accessed November 2010]
  • Lee , E. S. and Tavil , A. 2007 . Energy and visual comfort performance of electrochromic windows with overhangs . Building and Environment , 42 ( 6 ) : 2439 – 2449 .
  • Lee , J. Goal-based daylighting design using aninteractive simulation method . Proceedings of 11thinternational IBPSA conference . pp. 936 – 943 . International Building Performance Simulation Association .
  • Lehar , M. A. and Glicksman , L. R. 2007 . Rapid algorithm for modeling daylight distributions in office buildings . Building and Environment , 42 : 2908 – 2919 .
  • Li , D. H.W. , Lau , C. C.S. and Lam , J. C. 2004 . Predicting daylight illuminance by computer simulation techniques . Lighting Research and Technology , 36 : 113 – 129 .
  • Li , D. H.W. and Tsang , E. K.W. 2005 . An analysis of measured and simulated daylight illuminance and lighting savings in a daylit corridor . Building and Environment , 40 : 973 – 982 .
  • Li , D. H.W. and Tsang , E. K.W. 2008 . An analysis of daylighting performance for office buildings in Hong Kong . Building and Environment , 43 : 1446 – 1458 .
  • Li , D. H.W. 2006 . A study of the daylighting performance and energy use in heavily obstructed residential buildings via computer simulation techniques . Energy and Buildings , 38 ( 11 ) : 1343 – 1348 .
  • Lighting Analysts,Inc . 2010 . Agi32 [online documentation] Available from: agi32.com [Accessed April 2010]
  • LightUp, Inc . 2010 . LightUp v.1.8 [online] Available from: light-up.co.uk [Accessed May 2010]
  • Lindelof , D. and Morel , N. 2006 . A field investigation of theintermediate light switching by users . Energy and Buildings , 38 : 790 – 801 .
  • Linhart , F. and Scartezzini , J. L. 2010 . Minimizing lighting power density in office rooms equipped with anidolic daylighting Systems . Solar Energy , 84 : 587 – 595 .
  • Loutzenhiser , P. G. , Maxwell , P. G. and Manz , H. 2007 . An empirical validation of the daylighting algorithms and associated interactions in building energy simulation programs using various shading devices and windows . Energy , 32 ( 10 ) : 1855 – 1870 .
  • Maamari , F. and Fontoynont , M. 2003 . Analytical tests for investigating the accuracy of lighting programs . Lighting Research and Technology , 35 : 225 – 242 .
  • Maamari , F. , Fontoynont , M. and Adra , N. 2006 . Application of the CIE test cases to assess the accuracy of lighting computer programs . Energy and Buildings , 38 : 869 – 877 .
  • Maamari , F. 2006 . Experimental validation of simulation methods for bi-directional transmission properties at the daylighting performance level . Energy and Buildings , 38 : 878 – 889 .
  • Mahdavi , A. , Spasojevic , B. and Brunner , K.A. Elements of a Simulation-Assisted Daylight-Responsive Illumination Systems Control in Buildings . Proceedings of 9th international IBPSA conference . pp. 693 – 700 . Montreal , , Canada : International Building Performance Simulation Association .
  • Manzan , M. and Pinto , F. Genetic optimization of external shading devices . Proceedings of 11th international IBPSA conference . pp. 180 – 187 . Glasgow , , Scotland : International Building Performance Simulation Association .
  • Mardaljevic , J. 1995 . Validation of a lighting simulation program under real sky conditions . Lighting Research and Technology , 27 ( 4 ) : 181 – 188 .
  • Mardaljevic , J. 2001 . The BRE-IDMP dataset: a new benchmark for the validation of illuminance prediction techniques . Lighting Research and Technology , 33 ( 2 ) : 117 – 136 .
  • Mardaljevic , J. Precision modelling of parametrically defined solar shading systems: pseudo-Changi . Proceedings of 8th international IBPSA conference . pp. 823 – 830 . Eindhoven, the Netherlands : International Building Performance Simulation Association .
  • Mardaljevic , J. 2004 . Verification of program accuracy for illuminance modelling: assumptions, methodology and an examination of conflicting findings . Lighting Research and Technology , 36 ( 3 ) : 217 – 242 .
  • Marsh , A. The application of shading masks . Proceedings of 9th international IBPSA conference . pp. 725 – 732 . Montreal , , Canada : International Building Performance Simulation Association .
  • Maunder , R. What does it look like? – Quality control in simulations of lighting appearance . Proceedings of 7th international IBPSA conference . pp. 1041 – 1048 . Rio de Janeiro , , Brazil : International Building Performance Simulation Association .
  • Mental images GmbH . 2010 . Mental ray [online] Available from: mentalimages.com/index.php [Accessed April 2010]
  • Milone , A. , Milone , D. and Pitruzzella , S. A simulation of daylight levels for the determination of visual comfort in large spaces . Proceedings of 10th international IBPSA conference . pp. 1232 – 1237 . Beijing , , China : International Building Performance Simulation Association .
  • Mischler , G. 2003 . Rayfront [online] Available from: www.schorsch.com/rayfront/ [Accessed April 2010]
  • Mitanchey , R. 2002 . “ From optical performances characterization of a redirecting daylight material to daylighting simulations ” . In IEA SHC Task 27 Workshop, Ottawa, Canada [online] Available from: www.iea-shc.org/task27/publications [Accessed May 2010]
  • Moeck , M. and Selkowitz , S. 1996 . A computer-based daylight systems design tool . Automation in Construction , 5 : 193 – 209 .
  • Mohelnikova , J. and Vajkay , F. 2008 . Daylight simulations and tubular light guides . International Journal of Sustainable Energy , 27 ( 3 ) : 155 – 163 .
  • Moore , J.S. 1980 . Sources of error in spectroradiometry . Lighting Research and Technology , 12 : 213 – 220 .
  • Nakamae , E. and Tadamura , K. 1995 . Photorealism in computer graphics – past and present . Computers and Graphics , 19 ( 1 ) : 119 – 130 .
  • Nassar , K. 2008 . Integrating discrete event and lighting simulation for analyzing construction work zones lighting plans . Automation in Construction , 17 : 561 – 572 .
  • Newsham , G.R. 2005 . Lighting quality research using rendered images of offices . Lighting Research and Technology , 37 : 93 – 115 .
  • Ng , E. A study on the accuracy of daylighting simulation of heavily obstructed buildings in Hong Kong . Proceedings of 7th international IBPSA conference . pp. 1215 – 1222 . Rio de Janeiro , , Brazil : International Building Performance Simulation Association .
  • Ng , E. A study of the relationship between daylight performance and height difference of buildings in highdensity cities using computational simulation . Proceedings of 9th international IBPSA conference . pp. 847 – 852 . Montreal , Canada : International Building Performance Simulation Association .
  • Ng , E. 2001 . Advanced lighting simulation in architectural design in the tropics . Automation in Construction , 10 : 365 – 379 .
  • NRC National Research Council Canada . 2009 . DAYSIM (Dynamic Daylight Simulations) [online] Available from: www.nrc-cnrc.gc.ca/eng/projects/irc/daysim.html [Accessed April 2010]
  • Ochoa , C.E. and Capeluto , I.G. 2006 . Evaluating visual comfort and performance of three natural lighting systems for deep office buildings in highly luminous climates . Building and Environment , 41 ( 8 ) : 1128 – 1135 .
  • Ochoa , C.E. and Capeluto , I.G. 2009 . Advice tool for early design stages of intelligent facades based on energy and visual comfort approach . Energy and Buildings , 41 ( 5 ) : 480 – 488 .
  • Oi , N. 2005 . The difference among generations in evaluating interior lighting environment . Journal of Physiological Anthropology and Applied Human Science , 24 : 87 – 91 .
  • Optical Research Associates Inc . 2010 . Choosing a software solution [online] Available from: www.opticalres.com/optical-design-need.html [Accessed November 2010]
  • Page , J. 2007 . On-site performance of electrochromic glazings coupled to an anidolic daylighting system . Solar Energy , 81 ( 9 ) : 1166 – 1179 .
  • Park , C.S. , Augenbroe , G. and Messadi , T. Daylighting optimization in smart facade systems . Proceedings of 8th international IBPSA conference . pp. 1001 – 1008 . Eindhoven, the Netherlands : International Building Performance Simulation Association .
  • Pauly , M. , Kobbelt , L.P. and Gross , M. 2006 . Point-based multiscale surface . ACM Transactions on Graphics , 25 ( 2 ) : 177 – 193 .
  • Pentilla , H. 2003 . Architectural-IT and educational curriculums – a European overview . International Journal of Architectural Computing , 1 ( 1 ) : 102 – 111 .
  • Perez , R. , Seals , R. and Michalsky , J. 1993 . All Weather Model for sky luminance distribution-preliminary configuration and validation . Solar Energy , 50 ( 3 ) : 235 – 245 .
  • Persistence of Vision, Inc . 2010 . POV-Raytracer [online] Available from: povray.org [Accessed April 2010]
  • Petersen , S. and Svendsen , S. 2010 . Method and simulation program informed decisions in the early stages ofbuilding design . Energy and Buildings , 42 ( 7 ) : 1113 – 1119 .
  • Pineda , J. 1988 . A parallel algorithm for polygon rasterization . Computer Graphics , 22 ( 4 ) : 17 – 20 .
  • Plant , C.G. H. and Archer , D.W. 1973 . A computer model for lighting prediction . Energy and Buildings , 8 : 351 – 361 .
  • Ratti , C. and Morello , E. SunScapes: extending the “solar envelopes” concept through “iso-solar surfaces” . Proceedings of PLEA2005 – the 22nd conference on passive and low energy architecture . Beirut , , Lebanon : Passive and Low Energy Architecture [online] . Available from: senseable.mit.edu/papers/pdf/2005_Ratti_Morello_PLEA2005.pdf [Last accessed 1 June 2010]
  • Reilly , M.S. 1995 . Modeling windows in DOE–2.1E . Energy and Buildings , 22 ( 1 ) : 59 – 66 .
  • Reinhart , C.F. 2004 . Lightswitch-2002: a model for manual and automated control of electric lighting and blinds . Solar Energy , 77 : 15 – 28 .
  • Reinhart , C.F. A simulation-based review of the ubiquitous window-headheight to daylit zone depth rule-of-thumb . Proceedings of 9th international IBPSA conference . pp. 1011 – 1018 . Montreal , , Canada : International Building Performance Simulation Association .
  • Reinhart , C.F. 2011 . “ Daylight performance predictions ” . In Building performance simulation for design and operation , Edited by: Hensenand , J.L.M. and Lamberts , R. London : Spon Press . ISBN: 978-0-415-47414-6
  • Reinhart , C.F. and Andersen , M. 2006 . Development and validation of a radiance model for a translucent panel . Energy and Buildings , 38 ( 7 ) : 890 – 904 .
  • Reinhart , C. and Breton , P.F. Experimental Validation of 3DS Max Design 2009 and Daysim 3.0 . Proceedings of 11th international IBPSA conference . pp. 1514 – 1521 . Glasgow , , Scotland : International Building Performance Simulation Association .
  • Reinhart , C.F. and Fitz , A. 2006 . Findings from a survey on the current use of daylight simulations in building design . Energy and Buildings , 38 ( 7 ) : 824 – 835 .
  • Reinhart , C.F. and Herkel , S. 2000 . The simulation of annual daylight illuminance distributions – a state-of-the-art comparison of six RADIANCE-based methods . Energy and Buildings , 32 : 167 – 187 .
  • Reinhart , C.F. , Mardaljevic , J. and Rogers , Z. 2006 . Dynamic daylight performance metrics for sustainable building design , National Research Council Canada Report NRC-48669 [online] . Available from: http://www.nrc-cnrc.gc.ca/obj/irc/doc/pubs/nrcc48669/nrcc48669.pdf [Accessed 1 May 2010]. Ontario: NRC, 26 pp
  • Reinhart , C.F. and Walkenhorst , O. 2001 . Validation of dynamic RADIANCE-based daylight simulations for atest office with external blinds . Energy and Buildings , 33 : 683 – 697 .
  • Relux Informatik AG . 2010 . Relux [online] Available from: relux.biz [Accessed 1 April 2010]
  • Robinson , D. and Stone , A. Irradiation modelling made simple: the cumulative sky approach and its application . Proceedings of PLEA2004 – the 21st conference on passive and low energy architecture . Eindhoven, the Netherlands : Passive and Low Energy Architecture [online] . Available from: arct.cam.ac.uk/PLEA/ConferenceResources/PLEA2004/Proceedings/p1153final.pdf [Last accessed 1 April 2010]
  • Roisin , B. 2008 . Lighting energy savings in offices using different control systems and their real consumption . Energy and Buildings , 40 : 514 – 523 .
  • Roy , G.G. 2000 . A comparative study of lighting simulation packages suitable for use in architectural design , Australia : School of Engineering, Murdoch University . Available from: www.cadplan.com.au/Reports/LightSim.pdf [Accessed April 2010]
  • Ruggiero , F. , Florensa , R.S. and Dimundo , A. 2009 . Re-interpretation of traditional architecture for visualcomfort . Building and Environment , 44 : 1886 – 1891 .
  • Ruppertsberg , A.I. and Bloj , M. 2006 . Rendering complex scenes for psychophysics using RADIANCE: how accurate can you get? . Journal of the Optical Society of America A , 23 : 759 – 768 .
  • Ryckaert , W.R. 2010 . Criteria for energy efficient lighting in buildings . Energy and Buildings , 42 : 341 – 347 .
  • Sarawgi , T. 2004 . Determining the suitability of computer-aided daylight simulation method in the design process . International Journal of Architectural Computing , 2 ( 2 ) : 155 – 175 .
  • Sarawgi , T. 2006 . Survey on the use of lighting design software in architecture and interior design undergraduate education . International Journal of Architectural Computing , 4 ( 4 ) : 91 – 108 .
  • Seong , Y.B. 2006 . HELIOS: solar rights analysis system for apartment buildings . Solar Energy , 80 : 723 – 741 .
  • Shaviv , E. 1984 . Climate and building design-tradition, research and design tools . Energy and Buildings , 7 : 55 – 69 .
  • Sheng , Y. 2011 . Aspatially augmented reality sketching interface for architectural daylighting design . IEEE Transactions on Visualization and Computer Graphics , 17 ( 1 ) : 38 – 50 .
  • Schregle , R. 1998 . “ Rendering with photon maps ” . In Thesis (Diploma) , c.3 – pp . Germany : University of Bonn .
  • Schregle , R. 2004 . “ Daylight simulation with photon maps ” . In Thesis (PhD) , c.205 – pp . Saarbrucken , , Germany : Universitaet Saarlandes .
  • Schregle , R. and Wienold , J. 2004 . Physical validation of global illumination methods: measurement and error analysis . Computer Graphics Forum , 23 : 761 – 781 .
  • Slater , A. and Graves , H. 2002 . Benchmarking lighting design software , London: CIBSE Publication TM28 .
  • Souza , L.C.L. , Rodrigues , D.S. and Mendes , J.F. G. Sky view factors estimation using a 3D-GIS extension . Proceedings of 8th international IBPSA conference . pp. 1227 – 1234 . Eindhoven , , Netherlands : International Building Performance Simulation Association .
  • Stewart , K. and Donn , M. Daylight simulation forcode compliance: creating a decision tool . Proceedings of 10th international IBPSA conference . pp. 1189 – 1196 . Beijing , , China : International Building Performance Simulation Association .
  • Svendenius , N. and Pertola , P. Searching for useful lighting design software: developing technical specifications based on real needs . Right light proceedings: the 3rd European conference on energy-efficient lighting . pp. 19 – 24 . NewCastle-upon-Tyne , , UK : IAEEL .
  • Thanachareonkit , A. and Scartezzini , J.-L. 2010 . Modelling complex fenestration systems using physical and virtual models . Solar Energy , 84 : 563 – 586 .
  • Thanachareonkit , A. , Scartezzini , J.-L and Robinson , D. Comparing the accuracy of daylighting physical and virtual models for complex fenestration systems . Proceedings of PLEA2006 – the 23rd conference on passive and low energy architecture . Geneva , , Switzerland : Passive and Low Energy Architecture [online] . Available from: http://www.unige.ch/cuepe/html/plea2006/proceedings.php [Last accessed 1 March 2010]
  • Torres , S.L. and Sakamoto , Y. Facade design optimization for daylight with a simple genetic algorithm . Proceedings of 10th international IBPSA conference . pp. 1162 – 1167 . Beijing , , China : International Building Performance Simulation Association .
  • Trcka , M. , Hensen , J. L.M. and Wetter , M. 2009 . Co-simulation of innovative integrated HVAC systems in buildings . Journal of Building Performance Simulation , 2 : 209 – 230 .
  • Tzempelikos , A. and Athienitis , A.K. 2007 . The impact of shading design and control on building cooling and lighting demand . Solar Energy , 81 ( 3 ) : 369 – 382 .
  • Tzempelikos , A. , Athienitis , A.K. and Karava , P. 2007 . Simulation of facade and envelope design options for anew institutional building . Solar Energy , 81 ( 9 ) : 1088 – 1103 .
  • Ubbelohde , M.S. and Humann , C. Comparative evaluation of four daylighting software programs . Proceedings of the 1998 summer study on energy efficiency in buildings . pp. 3.325 – 3340 . ACEEE . [online]. Available from: http://www.coolshadow.com/research/daylight_software.html [Accessed 1 April 2010]
  • Ulbricht , C. , Wilkie , A. and Purgathofer , W. 2006 . Verification of physically based rendering algorithms . Computer Graphics Forum , 26 : 237 – 255 .
  • USDOE United States Department of Energy . 2010a . Building energy software tools directory [online] Available from: apps1.eere.energy.gov/buildings/tools_directory/ [Accessed April 2010]
  • USDOE United States Department of Energy . 2010b . EnergyPlus v6.0 [online] Available from: apps1.eere.energy.gov/buildings/energyplus/ [Accessed November 2010]
  • USDOE United States Department of Energy . 2010c . Energyplus input-output reference [online] Available from: apps1.eere.energy.gov/buildings/energyplus/pdfs/inputoutputreference.pdf [Accessed May 2010]
  • Velux . 2010 . Velux daylight visualizer [online] Available from: viz.velux.com [Accessed April 2010]
  • Walkenhorst , O. 2002 . Dynamic annual daylight simulations based on one-hour and one-minute means of irradiance data . Solar Energy , 72 : 385 – 395 .
  • Wang , M. , Bao , H. and Peng , Q. 1992 . A new progressive radiosity algorithm through the use of accurate form-factors . Computers and Graphics , 16 : 303 – 309 .
  • Wang , R.W. 2009 . A new parallel radiosity algorithm based on task mapping . Guangdianzi Jiguang/Journal of Optoelectronics Laser , 20 : 835 – 838 . (in Chinese, abstract in English)
  • Ward , G. 1992 . Radiance visual comfort calculation [online] Available from: radsite.lbl.gov/radiance/refer/Notes/glare.html [Accessed May 2010]
  • Ward , G. The RADIANCE lighting simulation and rendering system . Proceedings of the 21st annual conference on computer graphics and interactive techniques . pp. 459 – 472 . SIGGRAPH. New York: ACM .
  • Ward , G. 2002 . Radiance 3.4 and Open Source Development [online] Available from: www.radiance-online.org/radiance-workshop1/cd/Ward/OpenSource.ppt [Accessed April 2010]
  • Ward , G. 2005 . High dynamic range image encodings [online] Available from: www.anyhere.com/gward/hdrenc/Encodings.pdf [Accessed May 2010]
  • Ward , G. and Ousterhout , J. 1996 . Radiance trad program [online] Available from: radsite.lbl.gov/radiance/man_html/trad.1.html[Accessed April 2010]
  • Ward , G. , Rubinstein , F.M. and Clear , R. A ray tracing solution for diffuse interreflection . Proceedings of the 16th annual conference on computer graphics and interactive techniques . pp. 85 – 92 . SIGGRAPH. New York: ACM .
  • Ward , G. and Shakespeare , R.A. 1998 . Rendering with Radiance. The art and science of lighting visualization , SanFrancisco : Morgan Kaufmann Publishers .
  • Wienold , J. Dynamic simulation of blind control strategies for visual comfort and energy balance analysis . Proceedings of 10th international IBPSA conference . pp. 1197 – 1204 . Beijing , , China : International Building Performance Simulation Association .
  • Wienold , J. 2008 . Photon mapping procedure [online] Available from: www.ise.fraunhofer.de/areas-of-business-and-market-areas/applied-optics-and-functional-surfaces/lighting-technology/lighting-simulations/light-directing-with-radiance-photon-mapping/details-on-the-photon-mapping-procedure [Accessed April 2010]
  • Wienold , J. Dynamic daylight glare evaluation . Proceedings of 11th international IBPSA conference . pp. 944 – 951 . Glasgow , , Scotland : International Building Performance Simulation Association .
  • Wilkie , A. 2009 . “ Predictive rendering ” . In SIGGRAPH Asia 2009 Course Notes Yokohama , Japan Available from: portal.acm.org/citation.cfm?id=1665829 [Accessed April 2010]
  • Willmott , A.J. and Heckbert , P.S. 1997 . “ An empirical comparison of radiosity algorithms ” . In Technical Report [online]. School of Computer Science , Carnegie Mellon University . Available from: http://www.cs.cmu.edu/∼radiosity/emprad-tr.pdf [Accessed 1 May 2010]
  • Windat . 2006 . WIS version 3.0.1 [online] Available from: windat.org/wis/html/index.html [Accessed May 2010]
  • Wittkopf , S. 2010 . Ray tracing study for non-imaging daylight collectors . Solar Energy , 84 ( 6 ) : 986 – 996 .
  • Wong , S.L. , Wan , K.K.W. and Lam , T. N.T. 2010 . Artificial neural networks for energy analysis of office buildings with daylighting . Applied Energy , 87 : 551 – 557 .
  • Wright , J. and Mourshed , M. Geometric optimization of fenestration . Proceedings of 11th international IBPSA conference . pp. 920 – 927 . Glasgow , , Scotland : International Building Performance Simulation Association .
  • Yezioro , A. , Capeluto , I.G. and Shaviv , E. 2006 . Design guidelines for appropriate insolation of urban squares . Renewable Energy , 31 ( 7 ) : 1011 – 1023 .
  • Yezioro , A. , Dong , B. and Leite , F. 2008 . An applied artificial intelligence approach towards assessing building performance simulation tools . Energy and Buildings , 40 ( 4 ) : 612 – 620 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.