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Citations
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Agbo David, O., Madukwe Chinaza, A., & Anyalewechi Chika, J. (2019). Development of Solar Power Intelligent Street Lights System. International Journal of Scientific and Research Publications, 9(6).
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Arendt, J. (2012). Biological rhythms during residence in polar regions. Chronobiol Int, 29(4), 379–394.
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Baker, J. A. (1998). Energy management control system for fluorescent lighting. Renewable Energy, 13(1), 148.
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Beccali, M., Bonomolo, M., Leccese, F., Lista, D., & Salvadori, G. (2018). On the impact of safety requirements, energy prices and investment costs in street lighting refurbishment design. Energy, in press, in press.
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Bensch, G., Peters, J., & Sievert, M. (2017). The lighting transition in rural Africa — From kerosene to battery-powered LED and the emerging disposal problem. Energy for Sustainable Development, 39, 13–20.
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Beu, D., & Ciugudeanu, C. (2015). Energy Efficiency Lighting – Romania. Romanian J. of Building Services, 1(3), 1–7.
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Boyce, P., Fotios, S., & Richards, M. (2009). Road lighting and energy saving. Lighting Research and Technology, 41(3), 245–260.
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Bryant, J. M., & Hake, H. G. (1911). A decision support system for assessment of street lighting tenders based on energy performance indicators and environmental criteria: Overview, methodology and case study. University of Illinois Bulletin, 9(8), Bulletin No. 51.
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Campisi, D., Gitto, S., & Morea, D. (2017). Economic feasibility of energy efficiency improvements in street lighting systems in Rome. International Journal of Energy Economics and Policy, 7(1), 190–198.
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Challéat, S., & Lapostolle, D. (2014). Concilier éclairage urbain et environnement nocturne : Les enjeux d’une controverse sociotechnique. Nat. Sci. Soc., 22(4), 317–328.
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