Abstract
Urban built-up areas, where urbanization process takes place, represent well-developed areas in a city. The accurate and timely extraction of urban built-up areas has a fundamental role in the comprehension and management of urbanization dynamics. Urban built-up areas are not only a reflection of urban expansion but also the main space carrier of social activities. Recent research has attempted to integrate the social factor to improve the extraction accuracy. However, the existing extraction methods based on nighttime light data only focus on the integration of a single factor, such as points of interest or road networks, which leads to weak constraint and low accuracy. To address this issue, a new index-based methodology for urban built-up area extraction that fuses nighttime light data with multisource big data is proposed in this paper. The proposed index, while being conceptually simple and computationally inexpensive, can extract the built-up areas efficiently. First, a new index-based methodology, which integrates nighttime light data with points-of-interest, road networks, and the enhanced vegetation index, was constructed. Then, based on the proposed new index and the reference urban built-up data area, urban built-up area extraction was performed based on the dynamic threshold dichotomy method. Finally, the proposed method was validated based on actual data in a city. The experimental results indicate that the proposed index has high accuracy (recall, precision and F1 score) and applicability for urban built-up area boundary extraction. Moreover, this paper discussed different existing urban area extraction methods, and provides an insight into the appropriate approaches selection for further urban built-up area extraction in cities with different conditions.
Highlights
Urban built-up areas (UBUA) are directly linked to the geographic distribution of urban development that is an important indicator of a city’s levels of development and expansion [1,2]
The proposes an urban built-up area extraction method (PREANI) proposed in this study comprehensively considers both the road network and POIs and compensates for the incomplete expression of built-up areas associated with considering only a single element; the results of built-up area extraction reflect the actual situation by considering multiple constraints
The accuracy of the built-up area extraction is increased by integrating data with one social factor, the result for the urban built-up area extracted by nighttime light (NTL) data still show limitations
Summary
Urban built-up areas (UBUA) are directly linked to the geographic distribution of urban development that is an important indicator of a city’s levels of development and expansion [1,2]. The rapid and accurate extraction of urban built-up areas has always been a popular topic in the areas of remote sensing and urban planning [3,4]. Urban built-up areas are usually extracted based on remote sensing satellite data, including data from conventional remote sensing images and high-resolution remote sensing images by using Object Based Image Analysis and from nighttime light images [5]. Nighttime light data are not affected by spectral confusion and are currently broadly used for the extraction of urban built-up areas [7,8,9]
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