1. Cengiz M.S. Simulation and Design Study for Interior Zone Luminance In Tunnel Lighting. // Light & Engineering, 2019. V27, #2, pp. 42–51.
2. Iacomussi Rossi G., Soardo P. Energy Saving and Environmental Compatibility in Road Lighting // Light & Engineering, 2012. V20, #4, pp. 55–63.
3. Cengiz M.S. The Relationship between Maintenance Factor and Lighting Level in Tunnel Lighting. // Light & Engineering, 2019. V27, #3, pp. 75–88.
4. Cole M, Driscoll T. The Lighting Revolution: If We Were, Experts Before, We’re Novices Now. // IEEE Transactions on Industry Applications, 2014. V50, #2, pp. 1509–1520
5. Coşkun T., Gülhan Ö., Şahin C.D., Arsan, Z. D., Akkurt, G. G. The effect of spatial interventions on historic buildings’ indoor climate (Case Study: Tire Necip Paşa Library, Izmir-Turkey) // Energy Procedia, 2017. V133, pp. 358–366.
6. Kamaruzzaman, S. N., Zulkifli, N. A Review of the Lighting Performance in Buildings through Energy Efficiency, presented at the 2nd International Conference on Research in Science, // Engineering and Technology (ICRSET’2014), March 21–22, 2014, Dubai (UAE).
7. Almodovar-Melendo, J. M., Cabeza-Lainez, J. M., Rodriguez-Cunill, I. Lighting features in historical buildings: Scientific analysis of the Church of Saint Louis of the Frenchmen in Sevilla // Sustainability, 2018. V10, #9, pp. 1–23.
8. Cesario E., Grifoni R.C., Leuzzi A. Paciotti D., Light design in historical buildings: Parameters and prototypes. Comparison of façade behavior: Metal meshes vs. high-tenacity polymer composite meshes, // presented at International Conference on Environment and Electrical Engineering, 2016, pp. 1–5.
9. Zakaria S. A., Bahauddin A. Light Art for Historical Buildings: A Case Study of the Heritage Buildings in George Town, Penang Island, Procedia // Social and Behavioral Sciences, 2015, V184, pp. 345–350.
10. Salvadori G., Fantozzi F., Rocca, M., & Leccese F. The energy audit activity focused on the lighting systems in historical buildings // Energies, 2016. V9, #12, pp. 1–13.
11. Górczewska M. Some aspects of architectural lighting of historical buildings. // WIT Transactions on the Built Environment, 2011. V121, pp. 107–116.
12. Balocco C., Volante, G. A method for sustainable lighting, preventive conservation, energy design and technology-Lighting a historical church converted into a university library // Sustainability, 2019 V11, #11, pp. 1–17.
13. CIE Lighting of Indoor Work Places ISO 8995:2002(E) CIE S008/E‑2001. http://cie.co.at
14. Xu X., Collin A., Djokic S.Z. Langella R., Testa A., Drapela J., Experimental evaluation and classification of LED lamps for typical residential applications, presented at 2017 IEEE PES Innovative Smart Grid Technologies Conference Europe // ISGT-Europe 2017, pp. 1–6.
15. Kim J., Sa G., Kim Y., Baek J. LED-ID application for intelligent lighting, presented at International Conference on Ubiquitous and Future Networks // ICUFN, 2015-August, pp. 225–227.
16. Matvoz D., Maksić M. Comparison of LED and CFL lamps and their impact on electric power network, presented at Harmonics and Quality of Power (ICHQP) // 2012 IEEE15th International Conference on, Hong Kong, 2012, pp. 320–327.
17. Yurci Y., Cengiz Ç., Yapici İ., Cengiz MS., Yildirim S., Eren M., Palta O., Atiç S. Analysis of Energy Productivity in LED Illumination by Active or Passive Methods. International Conference on Multidisciplinary, Engineering, Science // Education and Technology, 2017, Baku
18. Onaygil S., Güler Ö., Erkin E. Cost Analyses of LED Luminaires In Road Lighting // Light & Engineering, 2019, V20, #2, pp. 39–45.
19. Cengiz Ç., Kaynaklı M., Gencer G., Eren M., Yapici İ., Yildirim S., Cengiz MS. Selection Criteria and Economic Analysis of LEDs, Book of Abstracts // Imeset Int. Conf. Mult. Sci. Eng. Tech., October 27–29, 2017, Bitlis, Turkey.
20. Yurci Y., Yildirim S., Palta O., Cengiz Ç., Atiç S., Yapici İ., Cengiz MS., Eren, M. (2017). Numerical Analysis of LED Illumination Productivity Parameter. International Conference on Multidisciplinary, Engineering, Science // Education and Technology (IMESET’ 17 Baku)
21. Yıldırım S., Yapıcı İ., Atiç S., Eren M., Palta O., Cengiz Ç., Cengiz M.S., Yurci Y. Numerical Analysis of Productivity and Redemption Periods in LED Illimunation. Imeset Book of Abstracts // Int. Conf. Mult. Sci. Eng. Tech., 12–14 July 2017, Baku
22. Cengiz, M.S., Cengiz, Ç. Numerical Analysis of Tunnel LED Lighting Maintenance Factor. // IIUM Engineering Journal, 2018. V19, #2, pp. 154–163.
23. Çıbuk M., Arı D., Ağgün F. Relay Mechanism with Three way Handshake for Wireless Sensor Networks // the 8th International Advanced Technologies Symposium, Elazığ, 2017.
24. Çıbuk, M., Cengiz, M.S. Determination of Energy Consumption According To Wireless Network Topologies In Grid-Free Lighting Systems. // Light & Engineering, 2020. V28, #2, pp. 67–76.
25. Cengiz MS. Cengiz Ç. (2017). IOT and Lighting Automation. International Conference on, Imeset Book of Abstracts // Int. Conf. Mult. Sci. Eng. Tech., 12–14 July 2017, Baku
26. Arı D., Çıbuk M., Ağgün F. Effect of Relay Priority Mechanism on Multi hop Wireless Sensor Networks, // Bitlis Eren University Journal of Science and Technology, 2017. V7, #2, pp. 145–153.
27. Dos Santos Oliveira G., De Oliveira E.P., Da Silva A.P. De Moura Carvalho C.C. M., Power quality of LED lamps. Presented at International Conference on Harmonics and Quality of Power, // ICHQP, 2016-December, pp. 575–580.
28. Varhan D. LED Lighting in Historical Spaces and Applications // Master Thesis, Bitlis Eren University, Turkey, October 2019.
29. Tuncer O.C. Diyarbakır Mosques, Diyarbakır Metropolitan Municipality // Culture and Art Publications, Diyarbakır, 1996.
30. Onaygil S. TEDAŞ Genel Müdürlüğü Meslek İçi Eğitim Semineri-Gölbaşı Eğitim Tesisleri, // Yol aydınlatma Semineri 23–24 Ocak 2007.
31. Onaygil S. TEDAŞ Genel Müdürlüğü Meslek İçi Eğitim Semineri, TEDAŞ Basımevi, Ankara.
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