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de Meester, J., & Storch, T. (2020). Optimized Performance Parameters for Nighttime Multispectral Satellite Imagery to Analyze Lightings in Urban Areas. Sensors (Basel), 20(11).
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den Outer, P., Lolkema, D., Haaima, M., van der Hoff, R., Spoelstra, H., & Schmidt, W. (2011). Intercomparisons of nine sky brightness detectors. Sensors (Basel), 11(10), 9603–9612.
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den Outer, P., Lolkema, D., Haaima, M., van der Hoff, R., Spoelstra, H., & Schmidt, W. (2015). Stability of the Nine Sky Quality Meters in the Dutch Night Sky Brightness Monitoring Network. Sensors, 15(4), 9466–9480.
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Dobler, G., Ghandehari, M., Koonin, S. E., & Sharma, M. S. (2016). A Hyperspectral Survey of New York City Lighting Technology. Sensors (Basel), 16(12), 2047.
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Downey, J. W. (1919). Determination of minimum light sense and retinal dark adaptation with presentation of a new type of photometer. American Journal of Ophthalmology, 2(1), 13–20.
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Duriscoe, D. M. (2016). Photometric indicators of visual night sky quality derived from all-sky brightness maps. JQSRT, 181, 33–45.
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Elvey, C. T., & Roach, F. E. (1937). A Photoelectric Study of the Light from the Night Sky. ApJL, 85, 213.
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Fiorentin, P., & Boscaro, F. (2019). A method for measuring the light output of video advertising reproduced by LED billboards. Measurement, 138, 25–33.
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Gaston, K. J. (2013). Sustainability: A green light for efficiency. Nature, 497(7451), 560–561.
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Gaydecki, P. (2018). Automated moth flight analysis in the vicinity of artificial light. Bull Entomol Res, 109(1), 127–140.
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