Abstract
DMSP/OLS images are widely used as data sources in various domains of study. However, these images have some deficiencies, one of which is digital number (DN) saturation in urban areas, which leads to significant underestimation of light intensity. We propose a new method to correct the saturation. With China as the study area, the threshold value of the saturation DN is screened out first. A series of regression analyses are then carried out for the 2006 radiance calibrated nighttime lights (RCNL) image and relative NDVI (RNDVI) to determine a formula for saturation correction. The 2006 stable nighttime lights (SNL) image (F162006) is finally corrected and evaluated. It is concluded that pixels are saturated when the DN is larger than 50, and that the saturation is more serious when the DN is larger. RNDVI, which was derived by subtracting the interpolated NDVI from the real NDVI, is significantly better than the real NDVI for reflecting the degree of human activity. Quadratic functions describe the relationship between DN and RNDVI well. The 2006 SNL image presented more variation within urban cores and stronger correlations with the 2006 RCNL image and Gross Domestic Product after correction. However, RNDVI may also suffer “saturation” when it is lower than −0.4, at which point it is no longer effective at correcting DN saturation. In general, RNDVI is effective, although far from perfect, for saturation correction of the 2006 SNL image, and could be applied to the SNL images for other years.
Highlights
Nighttime lights data obtained by the Operational Linescan System (OLS) on board DefenseMeteorological Satellite Program (DMSP) satellites was discovered to have a high correlation with urban characteristics such as Gross Domestic Product (GDP), power assumption, and population levels in the late 20th century [1]
relative Normalized Differences Vegetation Index (NDVI) (RNDVI) is below −0.4, the distribution of scatters seems quite discrete and with strong uncertainty, uncertainty, its trend still fits the quadratic curve generally
This indicates that RNDVI, and its trend still fits the quadratic curve generally
Summary
Nighttime lights data obtained by the Operational Linescan System (OLS) on board DefenseMeteorological Satellite Program (DMSP) satellites was discovered to have a high correlation with urban characteristics such as Gross Domestic Product (GDP), power assumption, and population levels in the late 20th century [1]. Nighttime lights data obtained by the Operational Linescan System (OLS) on board Defense. Many more studies in a wide range of disciplines have been conducted to determine useful indicators of human activities [2,3,4,5,6,7,8,9,10,11,12]. Because the VIIRS record began in 2011, any studies prior to that date must rely on DMSP/OLS for nighttime lights imagery. Scientists at NOAA’s National Geophysical Data Center (NGDC) are in charge of processing the nighttime lights data. They remove natural noises, including moonlight disturbances, aurora light
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