Abstract
Hemispherical (fisheye) photography is a well-established approach for estimating the sky view factor (SVF). High-resolution urban models from LiDAR and oblique airborne photogrammetry can provide continuous SVF estimates over a large urban area, but such data are not always available and are difficult to acquire. Street view panoramas have become widely available in urban areas worldwide: Google Street View (GSV) maintains a global network of panoramas excluding China and several other countries; Baidu Street View (BSV) and Tencent Street View (TSV) focus their panorama acquisition efforts within China, and have covered hundreds of cities therein. In this paper, we approach this issue from a big data perspective by presenting and validating a method for automatic estimation of SVF from massive amounts of street view photographs. Comparisons were made with SVF estimates derived from two independent sources: a LiDAR-based Digital Surface Model (DSM) and an oblique airborne photogrammetry-based 3D city model (OAP3D), resulting in a correlation coefficient of 0.863 and 0.987, respectively. The comparisons demonstrated the capacity of the proposed method to provide reliable SVF estimates. Additionally, we present an application of the proposed method with about 12,000 GSV panoramas to characterize the spatial distribution of SVF over Manhattan Island in New York City. Although this is a proof-of-concept study, it has shown the potential of the proposed approach to assist urban climate and urban planning research. However, further development is needed before this approach can be finally delivered to the urban climate and urban planning communities for practical applications.
Highlights
Sky view factor (SVF) represents the fraction of the sky that is visible from a point on a surface [1], such as the ground
Sky obstruction can substantially reduce the amount of solar radiation reaching the ground [10], and SVF serves an important role in solar radiation modeling [11,12]
We aim to present and validate a framework for automatically estimating SVF from street view panoramas, and our work mainly focuses on two parts: (1) How can a multi-perspective set of street view images retrieved from a panorama provider be stitched back into a full panorama? It is documented [28] that on the server side, each panorama is present in an equirectangular (Plate Carrée) projection
Summary
Sky view factor (SVF) represents the fraction of the sky that is visible from a point on a surface [1], such as the ground. It is an important parameter in urban climate research [2,3,4,5] and urban planning practices [6,7,8]. A significant relationship was found between SVF and urban heat islands at a local scale [9]. It was found that SVF was significantly correlated with surface emissivity in urban canyons [13]. The estimation accuracy of surface emissivity [14] and surface temperature [15] could be improved by Remote Sens. 2017, 9, 411; doi:10.3390/rs9050411 www.mdpi.com/journal/remotesensing
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