Morphological Building/Shadow Index for Building Extraction From High-Resolution Imagery Over Urban Areas

Morphological building index (MBI) is a recently developed approach for automatic indication of buildings in high-resolution imagery. However, MBI is subject to commission errors due to the similar characteristics between buildings, bare soil and roads. Furthermore, omission errors occur in dark and...

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Bibliographic Details
Published inIEEE journal of selected topics in applied earth observations and remote sensing Vol. 5; no. 1; pp. 161 - 172
Main Authors Huang, Xin, Zhang, Liangpei
Format Journal Article
LanguageEnglish
Published IEEE 01.02.2012
Subjects
Brightness
Building detection
Buildings
Feature extraction
high resolution
Indexes
mathematical morphology
Roads
shadow detection
Shape
Vegetation mapping
WorldView-2
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Summary:Morphological building index (MBI) is a recently developed approach for automatic indication of buildings in high-resolution imagery. However, MBI is subject to commission errors due to the similar characteristics between buildings, bare soil and roads. Furthermore, omission errors occur in dark and heterogeneous roofs. In this study, a systematic framework for building extraction from high-resolution imagery is proposed, aiming to alleviate both commission and omission errors for the original MBI algorithm. The improvements include three aspects: 1) a morphological shadow index (MSI) is proposed to detect shadows that are used as a spatial constraint of buildings; 2) a dual-threshold filtering is proposed to integrate the information of MBI and MSI; 3) the proposed framework is implemented in an object-based environment, where a geometrical index and a vegetation index are then used to remove noise from narrow roads and bright vegetation. The proposed framework was validated on an Ikonos image of Washington DC Mall with 1-m resolution and an 8-channel WorldView-2 image of Hangzhou, east of China, with 2-m resolution. By comparison with the ground truth references, it was shown that our method achieved over 90% overall accuracy for discrimination between buildings and backgrounds for both datasets. In the comparative study, it was revealed that the proposed method improved the original MBI significantly. Furthermore, the proposed method was more accurate than the support vector machine interpretation with the differential morphological profiles (DMP) and multiscale urban complexity index (MUCI).
ISSN:1939-1404
2151-1535
DOI:10.1109/JSTARS.2011.2168195