Abstract
As the capital city of China, Beijing has experienced unprecedented economic and population growth and dramatic impervious surface changes during the last few decades. An application of the classification method combining the spectral and textural features based on Random Forest was conducted to monitor the spatial and temporal changes of Beijing’s impervious surfaces. This classification strategy achieved excellent performance in the impervious surface extraction in complex urban areas, as the Kappa coefficient reached 0.850. Based on this strategy, the impervious surfaces inside Beijing’s sixth ring road in 1997, 2002, 2007, 2013, and 2017 were extracted. As the development of Beijing has a special regional feature, the changes of impervious surfaces within the sixth ring road were assessed. The findings are as follows: (1) the textural features can significantly improve the classification accuracy of land cover in urban areas, especially for the impervious surface with high albedo. (2) Impervious surfaces within the sixth ring road expanded dramatically from 1997 to 2017, had three expanding periods: 1997–2002, 2002–2007, and 2013–2017, and only shrank in 2007–2013. There are different possible major driving factors for each period. (3) The region between the fifth and sixth ring roads in Beijing underwent the most significant changes in the two decades. (4) The inner three regions are relatively highly urbanized areas compared to the outer two regions. Urbanization processes in the interior regions tend to be completed compared to the exterior regions.
Highlights
It is estimated that the world’s population will reach 9.6 billion in 2050, and 66 percent of people are projected to be living in urban areas [1]
The Random Forest (RF) algorithm was used to extract the impervious surfaces in Beijing from Landsat satellite images
In addition to the original multispectral bands, the first two components obtained from principal components analysis (PCA) and the first three components from minimum noise fraction rotation were introduced in the classification as auxiliary spectral features
Summary
It is estimated that the world’s population will reach 9.6 billion in 2050, and 66 percent of people are projected to be living in urban areas [1]. The surging population is driving the acceleration of urbanization. The accelerating urbanization will result in the emergence of more megacities, which will bring about a series of challenges, including the increase of impervious surfaces. Impervious surfaces have been considered an efficient indicator to monitor the urban changes and analyze the environmental impact analysis [2,3,4,5,6]. As it is an important megacity, studying the impervious surfaces in Beijing will provide some essential clues for future urbanization
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