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Automatic Reconstruction of Building Roofs Through Effective Integration of Lidar and Multispectral Imagery : Volume I-3, Issue 1 (20/07/2012)

By Awrangjeb, M.

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Book Id: WPLBN0004013591
Format Type: PDF Article :
File Size: Pages 6
Reproduction Date: 2015

Title: Automatic Reconstruction of Building Roofs Through Effective Integration of Lidar and Multispectral Imagery : Volume I-3, Issue 1 (20/07/2012)  
Author: Awrangjeb, M.
Volume: Vol. I-3, Issue 1
Language: English
Subject: Science, Isprs, Annals
Collections: Periodicals: Journal and Magazine Collection, Copernicus GmbH
Historic
Publication Date:
2012
Publisher: Copernicus Gmbh, Göttingen, Germany
Member Page: Copernicus Publications

Citation

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Zhang, C., Fraser, C. S., & Awrangjeb, M. (2012). Automatic Reconstruction of Building Roofs Through Effective Integration of Lidar and Multispectral Imagery : Volume I-3, Issue 1 (20/07/2012). Retrieved from http://worldebooklibrary.com/


Description
Description: Cooperative Research Centre for Spatial Information, Department of Infrastructure Engineering, University of Melbourne, Vic 3010, Australia. Automatic 3D reconstruction of building roofs from remotely sensed data is important for many applications including city modeling. This paper proposes a new method for automatic 3D roof reconstruction through an effective integration of LIDAR data and multispectral imagery. Using the ground height from a DEM, the raw LIDAR points are separated into two groups. The first group contains the ground points that are exploited to constitute a 'ground mask'. The second group contains the non-ground points that are used to generate initial roof planes. The structural lines are extracted from the grey-scale version of the orthoimage and they are classified into several classes such as 'ground', 'tree', 'roof edge' and 'roof ridge' using the ground mask, the NDVI image (Normalised Difference Vegetation Index from the multi-band orthoimage) and the entropy image (from the grey-scale orthoimage). The lines from the later two classes are primarily used to fit initial planes to the neighbouring LIDAR points. Other image lines within the vicinity of an initial plane are selected to fit the boundary of the plane. Once the proper image lines are selected and others are discarded, the final plane is reconstructed using the selected lines. Experimental results show that the proposed method can handle irregular and large registration errors between the LIDAR data and orthoimagery.

Summary
AUTOMATIC RECONSTRUCTION OF BUILDING ROOFS THROUGH EFFECTIVE INTEGRATION OF LIDAR AND MULTISPECTRAL IMAGERY

 

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