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Bará, S. (2017). Characterizing the zenithal night sky brightness in large territories: how many samples per square kilometre are needed? Monthly Notices of the Royal Astronomical Society, 473(3), 4164–4173.
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Bará, S. (2017). Variations on a classical theme: On the formal relationship between magnitudes per square arcsecond and luminance. Intl J of Sustainable Lighting, 19(2), 77.
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Bará, S., & Escofet, J. (2018). On lamps, walls, and eyes: The spectral radiance field and the evaluation of light pollution indoors. J of Quant Spect and Rad Trans, 205, 267–277.
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Bará, S., Falchi, F., Furgoni, R., & Lima, R. C. (2020). Fast Fourier-transform calculation of artificial night sky brightness maps. Journal of Quantitative Spectroscopy and Radiative Transfer, 240, 106658.
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Cinzano, P. (2005). Night Sky Photometry with Sky Quality Meter. Technical Report 9, ISTIL. V1.4., .
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Cinzano, P., & Falchi, F. (2003). A portable wide-field instrument for mapping night sky brightness automatically. Mem. S.A. It., 74(2), 458–459.
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David, A., Smet, K. A. G., & Whitehead, L. (2019). Methods for Assessing Quantity and Quality of Illumination. Annu Rev Vis Sci, 5, 479–502.
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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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Jechow, A., Holker, F., & Kyba, C. C. M. (2019). Using all-sky differential photometry to investigate how nocturnal clouds darken the night sky in rural areas. Sci Rep, 9(1), 1391.
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Rybnikova, N. A., & Portnov, B. A. (2015). Using light-at-night (LAN) satellite data for identifying clusters of economic activities in Europe. Lett. Spatial & Resource Sci., 8(3), 307–334.
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