[Neeman, E. – Light, W. – Hopkinson, R. G. (1976)Recommendations for the admission and control of sunlight in buildings. Building and Environment, Vol. 11, No. 2, pp. 91–101.10.1016/0360-1323(76)90025-1]Search in Google Scholar
[Boubekri, M. (2008)Daylighting, Architecture and Health: Building Design Strategies. 1 ed., Architectural Press, Amsterdam; Boston; London, 160 pp.10.1016/B978-0-7506-6724-1.00006-3]Search in Google Scholar
[Holick, M. F (2008)Sunlight, vitamin D and health: A D-lightful story. In: Solar Radiation and Human Health, The Norwegian Academy of Science and Letters, pp. 147–166.]Search in Google Scholar
[Hobday, R. A. (1997)Sunlight Therapy and Solar Architecture. Medical History, Vol. 42, pp. 455–472.10.1017/S0025727300063043]Search in Google Scholar
[Littlefair, P. J (2011)Site layout planning for daylight, and sunlight: a guide to good practice. BRE Report, CRC, Garston. Second edition.]Search in Google Scholar
[Hraška, J. (2004)Solar and daylight rights in Slovakia – their meaning for energy and urban design. In: Proceedings of Contexts of Architecture, 38th International Conference of Architectural Science Association (ANZAScA), Launceston, Australia, 10-12 Nov. 2004, pp. 265–269.]Search in Google Scholar
[Darula, S. – Christoffersen, J. – Malikova, M. (2015) Sunlight and insolation of building interiors. Energy Procedia, Vol. 78, pp. 1245–1250.10.1016/j.egypro.2015.11.266]Search in Google Scholar
[Hachem, C. – Fazio, F. – Athienitis, A. (2013)Solar optimized residential neighborhoods: Evaluation and design methodology. Solar Energy, Vol. 95, pp. 42–64.10.1016/j.solener.2013.06.002]Search in Google Scholar
[Chynoweth, P. (2009)Progressing the rights to light debate: Part 3: judicial attitudes to current practice. Structural Survey Journal, Vol. 27, No. 1, pp. 7–19.10.1108/02630800910941647]Search in Google Scholar
[Hraška, J. (2011)Daylight requirements in sustainable building rating systems. Ingineria Illuminatului (Journal of Lighting Engineering), Vol. 13, No. 2, pp. 5–11.]Search in Google Scholar
[Cheng, V. – Steemers, K. – Montavon, M. – Compagnon, R. (2006) Urban form, density and solar potential. In: Proceedings of the 23th Conference on PLEA, Geneva, Switzerland, pp. 701–706.]Search in Google Scholar
[Seong, Y.B. – Lim, J.H – Yeo, M.S – Goh, I.D – Kim, K.W. (2006)HELIOS: Solar rights analysis system for apartment buildings. Solar Energy, Vol. 80, No. 6, pp. 723–741.10.1016/j.solener.2005.11.008]Search in Google Scholar
[Lobaccaro G. – Frontini F. (2014)Solar Energy in urban environment: how urban densification effect existing building. Energy Procedia Journal, Vol. 48; pp.1559–1569.10.1016/j.egypro.2014.02.176]Search in Google Scholar
[Lepore, M. (2017)The right to the sun in the urban design. Vitruvio, International Journal of Architecture Technology and Sustainability, Vol. 2, No. 1, pp. 25–43.10.4995/vitruvio-ijats.2017.7459]Search in Google Scholar
[Shaviv E., Yezioro, A. (1997)Analyzing Mutual Shading Between Buildings. Solar Energy, Vol. 59, No. 1-3, pp. 83–88.]Search in Google Scholar
[Capeluto, I.G. – Shaviv, E. (2001)On the use of “Solar Volume” for determining the Urban fabric. Solar Energy, Vol. 70, No. 3, pp. 275–280.10.1016/S0038-092X(00)00088-8]Search in Google Scholar
[Dogan, T. – Reinhart, C. F. – Michelatos, P. (2012) Urban daylight simulation: Calculating the daylit area of urban designs. Fifth National Conference of IBPSA-USA SimBuild, Aug. 1-3, Madison, WI, USA, pp. 613–620.]Search in Google Scholar
[Kima, H. – Yi, Y.K. (2019)QuVue implementation for decisions related to high-rise residential building layouts. Building and Environment, Vol. 148, pp. 116–127.10.1016/j.buildenv.2018.10.055]Search in Google Scholar
[Yi, Y. K. – Kim, H. (2015) Agent-based geometry optimization with Genetic Algorithm (GA) for tall apartment’s solar right. Solar Energy, Vol. 113, pp. 236–250.10.1016/j.solener.2014.11.007]Search in Google Scholar
[Compagnon, R. (2004) Solar and daylight availability in the urban fabric. Energy and Buildings, Vol. 36, pp. 321–328.10.1016/j.enbuild.2004.01.009]Search in Google Scholar
[Ekici, B. – Cubukcuoglu, C. – Turrin, M. – Sariyildiz, I. S. (2019) Performative computational architecture using swarm and evolutionary optimisation: A review. Building and Environment, Vol. 147, pp. 356–371.10.1016/j.buildenv.2018.10.023]Search in Google Scholar
[Ratti, C. – Morello, E. (2005) SunScapes: extending the ‘solar envelopes’ concept through ‘iso-solar surfaces’. In: PLEA2005 – The 22nd Conference on Passive and Low Energy Architecture. Beirut, Lebanon, 6 pp.]Search in Google Scholar
[Seong, Y. B. – Kim, Y. Y. – Seok, H. T. – Choi, J. M. – Yeo, M. S. – Kim, K. W. (2011) Automatic computation for optimum height planning of apartment buildings to improve solar access. Solar Energy, Vol. 85, pp. 154–173.10.1016/j.solener.2010.10.007]Search in Google Scholar
[López, C. S. P. – Sala, M. – Tagliabue, L. Ch. – Frontini, F. – Bouziri, S. (2016) Solar Radiation and Daylighting Assessment Using the Sky-view Factor (SVF) Analysis as Method to Evaluate Urban Planning Densification Policies Impacts. Energy Procedia, Vol. 91, pp. 989–996.10.1016/j.egypro.2016.06.266]Search in Google Scholar
[Teller, J. – Azar, S.: TOWNSCOPE II (2001) A computer system to support solar access decision-making. Solar Energy, Vol. 70, No. 3, pp. 187–200.10.1016/S0038-092X(00)00097-9]Search in Google Scholar
[Mardaljevic, J. – Rylatt, M. (2003) Irradiation mapping of complex urban environments: an image-based approach. Energy and Buildings, Vol. 35, pp. 27–35.10.1016/S0378-7788(02)00077-4]Search in Google Scholar
[De Luca, F. – Dogan, T. (2019) A novel solar envelope method based on solar ordinances for urban planning. Building simulation, Vol. 12, pp. 817–834.10.1007/s12273-019-0561-1]Search in Google Scholar
[Perez, D. – Kämpf, J. – Wilke, U. – Papadopoulo, M. – Robinson, D. (2011) Citysim Simulation: the Case Study of Alt-Wiedikon, a Neighborhood of Zürich city. CISBAT, Lauzanne, Switzerland, 6 pp.]Search in Google Scholar
[Lia, L. – Leid, Y. – Tanga, L. – Yana, F. – Luoa, F. – Zhua, H. (2019) A 3D spatial data model of the solar rights associated with individual residential properties. Computers, Environment and Urban Systems, Vol. 74, pp. 88–99.10.1016/j.compenvurbsys.2018.12.003]Search in Google Scholar
[Zhang, J. – Heng, C. K. – Malone-Lee, L. C. – Hii, D. J. C. – Janssen, P. – Leung, K. S. – Tan, B. K. (2012) Evaluating environmental implications of density: a comparative case study on the relationship between density, urban block typology and sky exposure. Automation in Construction, Vol. 22, pp. 90–101.10.1016/j.autcon.2011.06.011]Search in Google Scholar
[Mohajeria, N. – Gudmundsson, A. – Kunckler, T. – Upadhyay, G. – Assouline, D. – Kämpf, J. H. – Scartezzini, J. L. (2019) A solar-based sustainable urban design: The effects of city-scale streetcanyon geometry on solar access in Geneva, Switzerland. Applied Energy, Vol. 240, pp. 173–190.10.1016/j.apenergy.2019.02.014]Search in Google Scholar
[Aries, M. B. S. – Aarts, M. P. J. – Van Hoof, J. (2015) Daylight and health: A review of the evidence and consequences for the built environment. Lighting Research and Technology, Vol. 47, pp. 6–27.10.1177/1477153513509258]Search in Google Scholar
[Pauley, S. M. (2004) Lighting for the human circadian clock: recent research indicates that lighting has become a public health issue. Medical Hypotheses, Vol. 63, pp. 588–596.10.1016/j.mehy.2004.03.020]Search in Google Scholar
[Rea, M. S. – Figueiro, M. G. – Bierman, A. – Hammer, R. (2012) Modeling the spectral sensitivity of the human circadian system. Lighting Research and Technology, Vol. 44, No. 4, pp. 386–396.10.1177/1477153511430474]Search in Google Scholar
[Ng, E. (2003) Studies on daylighting design and regulation of high-density residential housing in Hong Kong. Lighting Research and Technology, 2003, Vol. 35, No. 2, pp. 127–139.]Search in Google Scholar
[Knowles, R. L. (2003) The solar envelope: its meaning for energy and buildings. Energy and Buildings, Vol. 35, pp. 15–25.10.1016/S0378-7788(02)00076-2]Search in Google Scholar
[Bronin, S. (2009) Solar Rights. Boston University Law Review, Vol. 89, No.1217.]Search in Google Scholar
[Rosenthal, E. J. (2013) Letting the Sunshine In: Protecting Residential Access to Solar Energy in Common Interest Developments. Florida State University Law Review, Vol. 40, No. 4, Article 6, pp. 995–1025.]Search in Google Scholar
[Reitze, G. L. (1976) A Solar Rights Zoning Guarantee: Seeking New Law in Old Concepts. Washington University Law Review, 1976, Vol., No. 3, 29 pp.]Search in Google Scholar
[Morello et al. (2009) Sustainable urban block design through passive architecture, a tool that uses urban geometry optimisation to compute energy savings. In: Proceedings of 26th Conference on Passive and Low Energy Architecture, Quebec City, Canada, 6 pp.]Search in Google Scholar
[Capeluto, I. G. – Shaviv, E. (2001) On the use of “solar volume” for determining the urban fabric. Solar Energy, Vol. 70, pp. 275–280.10.1016/S0038-092X(00)00088-8]Search in Google Scholar
[Vartholomaios, A. (2015) The residential solar block envelope: A method for enabling the development of compact urban blocks with high passive solar potential. Energy and Buildings, Vol. 99, pp. 303–312.10.1016/j.enbuild.2015.04.046]Search in Google Scholar
[Cotton, J. F. (1996) Solid modeling as a tool for constructing solar envelopes. Automation in Construction, Vol. 5, pp. 185–192.10.1016/0926-5805(96)00148-3]Search in Google Scholar
[Panão, M. J. N. O. – Gonçalves, H. J. P. – Ferrão, P. M. C. (2008) Optimization of the urban building efficiency potential for mid-latitude climates using a genetic algorithm approach. Renewable Energy, Vol. 33, pp. 887–896.10.1016/j.renene.2007.04.014]Search in Google Scholar
[Stasinopoulos, T. N. (2018) A survey of solar envelope properties using solid modelling. Journal of Green Building, Vol. 13, No. 1, pp. 3–30.10.3992/1943-4618.13.1.3]Search in Google Scholar
[SanPiN 2.2.1/2.1.1.1076-01 “Gigiyenicheskiye trebovaniya k insolyatsii i solntsezashchite pomeshcheniy zhilykh i obshchestvennykh zdaniy i territoriy” (in Russian)]Search in Google Scholar
[Regulation No. 268/2009 about technical requirements for buildings (Vyhláška č. 268/2009 Sb. o technických požadavcích na stavby. (in Czech)]Search in Google Scholar
[ČSN 73 4301:2004 Obytné budovy. (Dwellings) (in Czech)]Search in Google Scholar
[Regulation No. 532/2002 of the Ministry of Environment of the Slovak Republic. (Vyhláška č. 532/2002 Ministerstva životného prostredia Slovenskej republiky, ktorou sa ustanovujú podrobnosti o všeobecných technických požiadavkách na výstavbu a o všeobecných technických požiadavkách na stavby užívané osobami s obmedzenou schopnosťou pohybu a orientácie.) (in Slovak) (Decree No. 532/2002 of the Ministry of the Environment of the Slovak Republic laying down details on general technical requirements for construction and general technical requirements for buildings used by persons with reduced mobility)]Search in Google Scholar
[STN 73 4301:2005 Budovy na bývanie. (Dwellings) (in Slovak)]Search in Google Scholar
[Regulation No. 620/2002 of the Ministry of Infrastructure on the technical requirements to be met by buildings and their placement (Poland)]Search in Google Scholar
[People’s Republic of China, Ministry of Construction (1993) Code of urban residential areas planning & design. GB 50180-93. Beijing: China Building Industry Press]Search in Google Scholar
[Urban Land Use Planning System in Japan (2007) 2nd Edition, Japan International Cooperation Agency in Cooperation with Ministry of Land, Infrastructure and Transport, March 2007, 71 pp.]Search in Google Scholar
[Building Act (2009) Article 61 (Korean Legislation Research Institute, 2009)]Search in Google Scholar
[DIN 5034-1:2011-07 Daylight in interiors - Part 1: General requirements. (Germany)]Search in Google Scholar
[BS 8206-2:2008 Lighting for buildings. Code of practice for daylighting. (U.K.)]Search in Google Scholar
[RT I 2002 - Ehitusseadus (Building act) and standard EVS 894:2008/A2:2015 Daylight in dwellings and offices. (Estonia)]Search in Google Scholar
[Technical Guidelines TSG-1-004:2010 “Efficient energy use”. (Slovenia)]Search in Google Scholar
[EN 17037:2018 Daylight in buildings. (European Union)]Search in Google Scholar
[State Environmental Planning Policy No 65 - Design Quality of Residential Apartment Development (SEPP 65) and the Apartment Design Guide]Search in Google Scholar
[Auckland design manual (2018)http://www.aucklanddesignmanual.co.nz/sites-and-buildings/apartments]Search in Google Scholar
[Solar Access Guide (1981) Section 9-9-17, BRC 1981 (City of Boulder, Colorado, USA)]Search in Google Scholar
[Solar Access (2011) Land Use Ordinance 18.70, City of Ashland, Oregon, USA]Search in Google Scholar
[Stadt Wien. Info für Nachbarinnen. Juli 2009, Vienna, Austria; www.bauen.wien.at (in German)]Search in Google Scholar
[Kanton Zürich, Baudirektion, Allgemeine Bauverordnung (ABV), Änderung der Schattenwurfregelung – Erläuterungsbericht Vernehmlassung 30. November 2018 bis 22. März 2019 (in German)]Search in Google Scholar
[Hraska, J. – Stujber, M. (2000) Manual of program OSV1-UT. 2000, Private publication, Bratislava, Slovakia]Search in Google Scholar
[Johnson, D. G – Watson, I. D. (1987) Graphical estimation of sky-view factors in urban environments. Journal of Climatology, Vol. 7; pp. 193–197.]Search in Google Scholar
[Grimmond C. S. B. – Potter S. K. – Zutter H. N. – Souch, C. (2001) Rapid methods to estimate sky-view factors applied to urban areas. International Journal of Climatology, Vol. 21, pp. 903–913.10.1002/joc.659]Search in Google Scholar
[Chatzipoulka, Ch. – Compagnon, R. – Kaempf, J. – Nikolopoulou, M. (2018) Sky view factor as predictor of solar availability on building façades. Solar Energy, Vol. 170, pp. 1026–1038.10.1016/j.solener.2018.06.028]Search in Google Scholar
[Mardaljevic, J. (2004) The quantification of solar access in dense urban environments. Lecture at Hong Kong Polytechnic University, http://www.iesd.dmu.ac.uk/~jm]Search in Google Scholar
[Schiler, M. – Uen-Fang, P. (1993) Solvelope: an interactive computer program for defining and drawing solar envelopes. In: Proceedings of the 18th National Passive Solar Conference, ASES, Washington, USA, pp. 9–14.]Search in Google Scholar
[Noble, D. – Kensek K. (1998) Computer generated solar envelopes in architecture. The Journal of Architecture, Vol. 3, No. 2, pp. 117–127.10.1080/136023698374233]Search in Google Scholar