Abstract

The accurate and efficient extraction of urban areas is of great significance for better understanding of urban sprawl, built environment, economic activities, and population distribution. Night-Time Light (NTL) data have been widely used to extract urban areas. However, most of the existing NTL indexes are incapable of identifying non-luminous built-up areas. The high-resolution NTL imagery derived from the Luojia 1-01 satellite, with low saturation and the blooming effect, can be used to map urban areas at a finer scale. A new urban spectral index, named the Modified Normalized Urban Areas Composite Index (MNUACI), improved upon the existing Normalized Urban Areas Composite Index (NUACI), was proposed in this study, which integrated the Human Settlement Index (HSI) generated from Luojia 1-01 NTL data, the Normalized Difference Vegetation Index (NDVI) from Landsat 8 imagery, and the Modified Normalized Difference Water Index (MNDWI). Our results indicated that MNUACI improved the spatial variability and differentiation of urban components by eliminating the NTL blooming effect and increasing the variation of the nighttime luminosity. Compared to urban area classification from Landsat 8 data, the MNUACI yielded better accuracy than NTL, NUACI, HSI, and the EVI-Adjusted NTL Index (EANTLI) alone. Furthermore, the quadratic polynomial regression analysis showed the model based on MNUACI had the best R2 and Root-Mean Square Error (RMSE) compared with NTL, NUACI, HSI, and EANTLI in terms of estimation of impervious surface area. It is concluded that MNUACI could improve the identification of urban areas and non-luminous built-up areas with better accuracy.

Highlights

  • Our results indicated that Modified Normalized Urban Area Composite Index (MNUACI) improved the spatial variability and differentiation of urban components by eliminating the Night-Time Light (NTL) blooming effect and increasing the variation of the nighttime luminosity

  • Before performing the calculation for MNUACI, the parameters a MNDW I and b NDV I were determined by Equation (3) based on samples collected from the urban cores

  • MNUACI based on the SVM method exhibits the best performance in urban area extraction, attributed to the integration of Human Settlement Index (HSI), Normalized Difference Vegetation Index (NDVI) and MNDVI information

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Summary

Introduction

Urban nighttime light (NTL) causes disturbance to the human circadian rhythm and sleep disorders [7] These urbanization issues increase the burden on the urban ecological system and impact the sustainable development of cities, especially in developing countries like China. This approximately exponential urban population growth has greatly promoted the accelerated expansion of China’s cities.

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