If illumination is used correctly in architectural designs, it makes positive contributions to human health. Electric lighting can contribute to human health in environments where there are architectural restrictions and daylight is not sufficiently used (for example, in prisons). In this study, the illuminance level from the sun was simulated with dynamic electric lighting. By using direct, semidirect, and diffused illumination, human centric lighting concept can be used in environments where daylighting is not sufficiently used. In this way, illumination suitable for human biology was made with lowcost dynamic electric lighting arrangement without changing the architectural design. In this study, equivalent melanopic illuminance values in WELL standards in the concept of human centric lighting are provided in a simulation environment for different illumination types in a prison environment. 1. Koknel Yener, A. Daylight Analysis in Classrooms with Solar Control // Architectural Science Review, 2002, Vol. 45, #4, pp. 311-316.
2. Aykal, F. D., Gumus, B., Unver, F. R., Ozgur, M. An Approach in Evaluation of Re Functioned Historical Buildings in view of Natural Lighting A Case Study in Diyarbakir Turkey // Light and Engineering, 2011, Vol. 19, #2, pp. 64-76.
3. Onaygil, S., Guler, O. Determination of the Energy Saving by Daylight Responsive Lighting Control Systems with an Example from Istanbul // Building and Environment, 2003, Vol. 38, #7, pp. 973-977.
4. Unver, F. R., Ozturk, L., Ak?n Ad?guzel, S., Celik, O. Effect of the facade alternatives on the daylight illuminance in offices // Energy and Buildings, 2003, Vol. 35, #8, pp. 737-746.
5. Koknel Yener, A. Performance Analysis of Window Glazing from Visual Comfort and Energy Conservation Points of View // Architectural Science Review, 2003, V46, #4, pp. 395-401.
6. Kurtay, C. Design of the External Environment for Favorable Daylight in Large Volumes // Gazi University Journal of the Faculty of Engineering and Architecture, 2002, Vol. 17, #3, pp. 75-87.
7. Unver, F. R., Ozturk, L. An example of facade colour design of mass housing // Color Research and Application, 2001, Vol. 27, #4, pp. 291-299.
8. Giray, E. Dynamic lighting and its application // MasterТs Thesis, Yildiz Technical University, Institute of Natural and Applied Sciences, 2009
9. Tuncel, A. Lighting design in restaurants, food and beverage and entertainment venues the effect of light and color on the formation of the atmosphere, 2009.
10. Aktas, I. The effects of dynamic lighting on human health, 2012.
11. Schlangen, L., L. E Lang, D., Cajochen, C., Nikunen, H., Tahkamo, L. Accelerate SSL Innovat?on for EUROPE, 2014.
12. Apayd?n, S. The effects of lighting design in offices on space design in terms of sustainability, 2012.
13. Dogan Yusuf, F. Investigation of lighting conditions in patient rooms: a case study in Izmir MasterТs thesis, 2017.
14. CEN EN12464-1:2011 (Main) Light and lighting - Lighting of work places - Part 1: Indoor work places, 01Jun2011.
15. TSE - TS EN12464-1 Light and lighting - Lighting of work places - Part 1: Indoor work places, 21 February 2013.
16. International WELL Building InstituteCircadian Lighting Design Q4-2020, Melanopic Light Intensity for Work Areas 2020 version.
17. International WELL Building InstituteCircadian Lighting Design, Light, Light Features Q4-2020 version, 2020.
18. Demirci, H. Investigation of lighting and colour phenomena in building design from the point of view of bioharmology and bioprocess. F?rat University Institute of Natural and Applied Sciences, Bioengineering, 2008.
19. Buttgereit, F., Smolen, J. S., Coogan, A. N., Cajochen, C. Clocking in: chronobiology in rheumatoid arthritis // Nature Reviews Rheumatology, 2015, Vol. 11, #6, pp. 349.
20. Rea, M. S., Figueiro, M. G., Bierman, A., Hamner, R. Modelling the spectral sensitivity of the human circadian system // Lighting Research and Technology, 2012, Vol. 44, #4, pp. 386-396.
21. Sahin, D. The Assessment of The Physiological and Psychological Effects of Lighting Design on Occupants, 2013 // Doctoral dissertation, Istanbul Technical University, Institute of Science and Technology, 2012.
22. Walerczyk, S., Hclpc, C., and Wizards, L.L. Human centric lighting // Architectural SSl, 2012. pp. 20-26.
23. Smolders, K. C. H.J. Daytime light exposure: effects and preferences, 2013.
24. Ozturk, L. The effect of luminance distribution on interior perception // Architectural Science Review, 2003, Vol. 46, #3, pp. 233-238.
25. Cengiz, C., Cengiz M.S. 2021. The Relationship Between Shadow and Visional Comfort in Indoor Areas // II. International Halich Congress On Mult?d?sc?pl?nary Scientific Research, 29-30 October 2021, Istanbul.
26. Cengiz, C., Cengiz M.S. 2021. Using Symmetric and Asymmetric Lens In Urban Lighting // II. Internat?onal Halich Congress On Multidisciplinary Scientific Research, 29-30 October 2021, Istanbul.
27. Efe, S.B., Varhan, D. Interior Lighting of a Historical Building by Using LED Luminaires A Case Study of Fatih Pasa Mosque // Light and Engineering, 2020, Vol. 28, #4, pp. 77-83.
28. Guler, O., Onaygil, S. The Effect of Luminance Uniformity on Visibility Level in Road Lighting // Lighting Research and Technology, 2003, Vol. 35, #3, pp. 199-215.
29. The Light Review, Explainer: Melanopic Lux. 30th July 2019/John Bullock/Explainer // Health and Wellbeing, Tech Hub.
30. ZVEIAkademie, 2021.
31. Boyce, Peter R. Human factors in lighting Third Edition. 2014. ISBN9780429104763
32. Boyce, Peter R. 2021. Light, lighting, and human health // Lighting Research and Technology. First Published April 28, 2021.
33. C?buk, M., Cengiz, M.S. Determination of Energy Consumption According To Wireless Network Topologies In GridFree Lighting Systems // Light and Engineering, 2020, Vol. 28, #2, pp. 67-76.
34. Cengiz, M.S. Simulation and Design Study for Interior Zone Luminance In Tunnel Lighting // Light and Engineering, 2019, Vol. 27, #2, pp. 42-51.
35. Cengiz, M.S. Effects of Luminaire Angle and Illumination Topology on Illumination Parameters In Road Lighting // Light and Engineering, 2020, Vol. 28, #4.
36. Eren, M., Yap?c?, I., Y?ld?r?m, S., Cengiz, C., Gencer, G., Palta, O., Aybay, E., Yurci, Y. 2017. Driver circuit effects in Lighting Systems // IOSR Journal of Electrical and Electronics Engineering, 12(6) Ver.III, pp. 1-4.
37. Cengiz, M.S. The Relationship between Maintenance Factor and Lighting Level in Tunnel Lighting // Light and Engineering, 2019, Vol. 27, #3, pp. 75-88.
38. Cengiz, C., Cengiz, M.S., Yurci, Y., Kaynakl?, M., Parlaky?ld?z, S., Ilcihan, Z. 2017. Realization of warming in lighting // IOSR Journal of Electrical and Electronics Engineering, 12(6) Ver.II, pp. 83-85.
39. Onaygil S. TEDAS General Directorate Vocational Training Seminar, TEDAS Printing House, Ankara, 2005. pp. 1-70.
40. Akalp, O., Ozbay, H., Efe S.B. Design and Analysis of HighEfficient Driver Model for LED Luminaires // Light and Engineering, 2021, Vol. 29, #2, pp. 96-106.
41. Cengiz M.S., Cengiz, C. Numerical Analysis of Tunnel LED Lighting Maintenance Factor // IIUM Engineering Journal, 2018, Vol. 19, #2, pp. 154-163.
42. Efe, S.B. UPFC Based RealTime Optimization of Power Systems for Dynamic Voltage Regulation // Computer Modeling in Engineering and Sciences, 2018, Vol. 116, #3, pp. 391-406.
43. Onaygil S., Guler, O. TEDAS General Directorate Vocational Training SeminarGolbas? Training Facilities, Road Lighting Seminar January 23-24, 2007.
44. Cengiz M.S. Effects of Luminaire Angle on Illumination Performance in Tunnel Lighting // Balkan Journal of Electrical and Computer Engineering, 2019, Vol. 7, #3, pp. 250-256.

• Previous article
• Next article

• rchitectural illumination
• illumination design
• physical environment control
• efficiency in illumination