Quantitative Evaluation of Urban Expansion using NPP-VIIRS Nighttime Light and Landsat Spectral Data

Abstract

Quantifying the evolution of urban expansion is of vital importance for optimizing land use patterns and promoting sustainable urban development. This research constructed the Enhanced Nighttime Light Urban Index (ENUI), which combines NPP-VIIRS nighttime light with Landsat spectral data, and used this index for the quantitative evaluation of urban expansion in the Guangdong-Hong Kong-Macao Greater Bay Area (GBA) urban agglomeration. The results showed that, between 2012 and 2018, (1) the extraction using the ENUI achieved an overall accuracy of 0.93–0.94, producer's accuracy in urban areas of 0.82–0.84, user's accuracy in urban areas of 0.73–0.75, and Kappa values of 0.75–0.78, showing a relatively high extraction accuracy; (2) the GBA urban expansion followed a circular and radial expansion pattern; (3) the growth trend of expansion intensity and development potential for sub-central cities was stronger than central cities; and (4) the agglomeration autocorrelation of the spatial expansion in the GBA presents a continuous "dispersion" trend. Compared with previous methods, our study improved the extraction accuracy of urban expansion and effectively reduced the deficiency of overflow effect for NPP-VIIRS nighttime light. The research can thus provide valuable datasets and reference for decision-making to adjust and optimize urban development pattern and design urban sustainable development. • NPP-VIIRS nighttime light, NDVI, NDWI and NDBI are used to quantify urban expansion. • The resulting overall accuracy and Kappa are 0.93–0.94 and 0.75–0.78, respectively. • The resulting producer's accuracy and user's accuracy are 0.82–0.84 and 0.73–0.75, respectively. • Multiple indicators are used to quantify urban expansion and analyze agglomeration. • Urban expansion rate showed different development patterns for different cities.