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Yuanda Cheng, Yu, M., Jia, J., Sun, Y., & Fan, Y. (2019). An optimal and comparison study on daylight and overall energy performance of double-glazed photovoltaics windows in cold region of china. Energy.Search in Google Scholar
Shchepetkov, N. I. (2019). Architectural lighting in museums. Light & Engineering, 43-53.Search in Google Scholar
Kundurac, A. C., Kazanasmaz, T., & Hordijk, T. (2018). Examining occupancy and architectural aspects affecting manual lighting control behaviour in offices based on a user survey. Light and Engineering.Search in Google Scholar
Darula, S. (2018). Review of the current state and future development in standardizing natural lighting in interiors. Light and Engineering, 26(4), 5-26.Search in Google Scholar
Cengiz, M. (2022). Humancentered architectural illumination design in prisons. Light & Engineering.Search in Google Scholar
Konis, K. (2019). A circadian design assist tool to evaluate daylight access in buildings for human biological lighting needs. Solar Energy, 191(Oct.), 449-458.Search in Google Scholar
Karpenko, V. E. (2020). Methodology for light design training in the sphere of architectural environment design. Light & Engineering(5-2020), 68-75.Search in Google Scholar
Eltaweel, A., & Su, Y. (2017). Parametric design and daylighting: a literature review. Renewable & Sustainable Energy Reviews, 73, 1086-1103.Search in Google Scholar
Cengiz, M. S. (2022). Lighting master plan application in living areas. Light & engineering.Search in Google Scholar
Junchao, H., Xi, C., Hongxing, Y., & Weilong, Z. (2018). Numerical investigation of a novel vacuum photovoltaic curtain wall and integrated optimization of photovoltaic envelope systems. Applied Energy, 229, 1048-1060.Search in Google Scholar
Cheng, Y., Gao, M., Dong, J., Jia, J., Zhao, X., & Li, G. (2018). Investigation on the daylight and overall energy performance of semi-transparent photovoltaic facades in cold climatic regions of china. Applied Energy, 232.Search in Google Scholar
Zhong, L., Yuan, J., & Fleck, B. (2019). Indoor environmental quality evaluation of lecture classrooms in an institutional building in a cold climate. Sustainability, 11.Search in Google Scholar
Roman Hrbá, Tomá Mlák, Václav Kolá, & Tomá Vantuch. (2019). Low-cost extra-low voltage led dimmer for tuneable white lighting. Elektronika ir Elektrotechnika(3).Search in Google Scholar
Oh, M., Jang, M., Moon, J., & Roh, S. (2019). Evaluation of building energy and daylight performance of electrochromic glazing for optimal control in three different climate zones. Sustainability, 11(1).Search in Google Scholar
Wang, R., Lu, S., & Feng, W. (2020). Impact of adjustment strategies on building design process in different climates oriented by multiple performance. Applied Energy, 266, 114822.Search in Google Scholar
Wang, F., Zhang, X., Wang, H., Li, Y., Dong, Y., & Lin, B., et al. (2022). An energy-efficient glass using biomimetic structures with excellent energy saving features in both hot and cold weather. Journal of Quantitative Spectroscopy & Radiative Transfer, 286.Search in Google Scholar
Cheng, Y., Gao, M., Jia, J., Sun, Y., Fan, Y., & Yu, M. (2019). An optimal and comparison study on daylight and overall energy performance of double-glazed photovoltaics windows in cold region of china. Energy, 170(MAR.1), 356-366.Search in Google Scholar
Wang, L., Janssen, P., Chen, K. W., Tong, Z., & Ji, G. (2019). Subtractive building massing for performance-based architectural design exploration: a case study of daylighting optimization. Sustainability, 11(24), 6965.Search in Google Scholar
Solovyov, A. K. (2021). Daylight, solar radiation, architectural expression, and energy efficiency of buildings. Light & Engineering.Search in Google Scholar