References
- Ayers, M. J., and D. J. Carter., 1995. Remote source electric light systems: A review. Lighting Research and Technology, 27(1), pp. 1-15.
- Aizenberg, J. B. 2000. From the history of hollow light guides and their efficient applications. Light & Engineering, 8, pp.35-48.
- Aizenberg, J. B., Buob, W., Signer, R., Korobko, A. A. and Pyatigorsky, V. M. 1996. Solar and artificial lighting of a School building with hollow light guide system. Svetotekhnika, 4, pp.41-54.
- Bennett, D., and Eijadi, D., 1980. Solar optics: Projecting Light into Buildings. AIA Journal, 69, PP.72-74.
- Billinton, R., and Karki, R., 2003. Reliability/cost implications of utilizing photovoltaics in small isolated power systems. Reliability Engineering & System Safety, 79, pp.11–6.
- Beccali, M., Cellura, M., Mistretta, M., 2003. Decision-Application of the electret method at regional level for the diffusion making in energy planning of renewable energy technology. Renewable Energy 2003, 28, pp. 2063–87.10.1016/S0960-1481(03)00102-2
- Courret, G., Paule, B., Scartezzini, J. L., 1996. Anidolic zenithal openings: Daylighting and shading. Lighting Research and Technology, 28, pp.11–17.
- Delnoij, D.M., Klazinga, N.S., van der Velden, K., 2003. Building integrated. European Journal of Public Health.
- Earp, A. A., Smith, G. B., Franklin, J., Swift, P., 2004. Optimization of a three - color luminescent solar concentrator daylighting system. Solar Energy Materials and Solar Cells, 84, pp. 411-426.10.1016/j.solmat.2004.02.046
- Faizi, M., Mehdizadeh Seraj, F., Gholipour Gashniani, M., 2016. Review of the innovative strategies to improve daylight penetration in building. Journal of Fundamental and Applied Sciences, 8(3S), pp. 1428-1447.
- Faizi, M., Gholipour Gashniani, M., Maleki, M., 2017. Investigating the potential of the innovative strategies in dense city. 3rd_ILDC Iran lighting design conference, Tehran, Iran.
- Freewan, A. a Y., Gharaibeh, A. a., Jamhawi, M. M., 2014. Improving daylight performance of light wells in residential buildings, Nourishing compact sustainable urban form. Sustainable Cities and Society, 13, pp. 32–40.10.1016/j.scs.2014.04.001
- Gašparini, K., Nasser, A., Sladić, S., 2014. The fault tolerant led power converter design for more efficient and durable lighting. Engineering Review, 34 (3), pp.189-195.
- Jovanovic, M., Afgan N., Radovanovic, P., Stevanovic, V., 2009. Sustainable development of the Belgrade energy system. Energy, 34, pp.532–9.
- Kim, J. T., and Kim, G., 2010. Overview and new developments in optical daylighting systems for building a healthy indoor environment. Building and Environment, 45(2), pp. 256–269.
- Mayhoub, M. S., 2014. Innovative daylighting systems’ challenges: A critical study. Energy and Buildings, 80, pp.394–405.10.1016/j.enbuild.2014.04.019
- Mayhoub, M. S., and Carter, D. J., 2011. The costs and benefits of using daylight guidance to light office buildings. Building and Environment, 46(3), pp. 698–710.
- Pilavachi, PA., Stephanidis, SD., Pappas, VA., Afgan, NH, 2009. Multi-criteria evaluation of hydrogen and natural gas fuelled power plant technologies. Applied Thermal Engineering, 29, pp. 2228–34.10.1016/j.applthermaleng.2008.11.014
- Reinhart, C. F., and Weissman, D. a., 2012. The daylight area. Building and Env, 50, pp. 155–164.
- Rosemann, A., and Kaase, H. (2005). Light pipe applications for daylighting systems. Solar Energy, 78, pp. 772-80.10.1016/j.solener.2004.09.002
- Rosemann, A., Mossman, M., Whitehead, L., 2008. Development of a cost-effective solar illumination system to bring natural light into the building core. Solar Energy, 82(4), pp. 302–310.10.1016/j.solener.2007.09.003
- Vardoulakis, S., Dimitr Oulopoulou, C., Thornes, J., Lai, K.-M., Taylor, J., Myers, I., Wilkinson, P., 2015. Impact of climate change on the domestic indoor environment and associated health risks in the UK. Environment International, 85, pp.299–313.
- Wang, J. J., Jing, Y. Y., Zhang, C. F., Zhao, J. H., 2009. Review on multi-criteria decision analysis aid in sustainable energy decision-making. Renewable and Sustainable Energy Reviews, 13(9), pp.2263–2278.10.1016/j.rser.2009.06.021
- Altomonte, S., 2008. Daylight for Energy Savings and Psycho-Physiological Well-Being in Sustainable Built Environments, pp. 3–16.
- Hansen, V. R., 2006. Innovative daylighting systems for deep-plan commercial buildings. Faculty of Built Environment and Engineering, (Queensland University).
- Hansen, G., and Edmonds, I., 2003. Natural illumination of deep-plan office buildings: light pipe strategies, (June), pp. 14–19.
- Mayhoub, M. S., 2011. Hybrid lighting systems. Thesis University of Liverpool, (July).
- Naves, E., 2006. The evaluation of daylight guide systems and their impact on building design.
- Reinhart, C., 2014. Daylighting handbook Volume I: fundamentals, designing with the Sun., (Place of publication and publisher not identified.).
- SLL, 2009. The SLL Lighting Handbook. Construction. 222 Balham High Road, London SW12 9BS.
- Zastrow, A., and Wittwer, V., 1986. Daylight with mirror light pipes and with fluorescent planar concentrators. SPIE 692 - Materials and optics for solar energy conversion and advanced lighting technology, pp. 227-34.
- Advanced building ltd, 2010. http://www.Advancedbuilding.com, (view at May. 2010).
- Himawari, www.himawari-net.co (view at June. 2013).
- Parans, 2013. www.parans.com (view at May. 2013).
- Sundolier, 2013. www.Sundolier.com (view at Oct. 2013).