Abstract
Automatic extraction of building roofs from remote sensing data is important for many applications, including 3D city modeling. This paper proposes a new method for automatic segmentation of raw LIDAR (light detection and ranging) data. Using the ground height from a DEM (digital elevation model), the raw LIDAR points are separated into two groups. The first group contains the ground points that form a “building mask”. The second group contains non-ground points that are clustered using the building mask. A cluster of points usually represents an individual building or tree. During segmentation, the planar roof segments are extracted from each cluster of points and refined using rules, such as the coplanarity of points and their locality. Planes on trees are removed using information, such as area and point height difference. Experimental results on nine areas of six different data sets show that the proposed method can successfully remove vegetation and, so, offers a high success rate for building detection (about 90% correctness and completeness) and roof plane extraction (about 80% correctness and completeness), when LIDAR point density is as low as four points/m2. Thus, the proposed method can be exploited in various applications.
Highlights
IntroductionAutomatic extraction of buildings from aerial imagery and/or LIDAR (light detection and ranging) data is a prerequisite for many GIS (Geographic Information System) applications, such as 3D building modelling [1]
Automatic extraction of buildings from aerial imagery and/or LIDAR data is a prerequisite for many GIS (Geographic Information System) applications, such as 3D building modelling [1]
Building extraction implies the extraction of 2D or 3D building information, such as individual building and roof plane boundaries
Summary
Automatic extraction of buildings from aerial imagery and/or LIDAR (light detection and ranging) data is a prerequisite for many GIS (Geographic Information System) applications, such as 3D building modelling [1]. The problem is well understood and, in many cases, accurate results are delivered, the major drawback is that the current level of automation in building extraction is comparatively low [2]. Based on the usage of the input data (imagery, LIDAR data, etc.), there are three main categories of building extraction methods. Automated building extraction from aerial imagery alone is generally not reliable enough for practical implementation [4]. Methods in the third category integrate aerial imagery and LIDAR data to exploit the complementary information from both data sources [7]
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