ISPRS Ann. Photogramm. Remote Sens. Spatial Inf. Sci., III-3, 217-224, 2016
http://www.isprs-ann-photogramm-remote-sens-spatial-inf-sci.net/III-3/217/2016/
doi:10.5194/isprs-annals-III-3-217-2016
 
03 Jun 2016
AIRBORNE MULTISPECTRAL LIDAR DATA FOR LAND-COVER CLASSIFICATION AND LAND/WATER MAPPING USING DIFFERENT SPECTRAL INDEXES
S. Morsy1, A. Shaker1, A. El-Rabbany1, and P. E. LaRocque2 1Department of Civil Engineering, Ryerson University, 350 Victoria St, Toronto, ON M5B 2K3, Canada
2Teledyne Optech, 300 Interchange Way, Concord, ON L4K 5Z8, Canada
Keywords: LiDAR, multispectral, MDVI, NDWI, vegetation, built-up areas, land-water mapping Abstract. Airborne Light Detection And Ranging (LiDAR) data is widely used in remote sensing applications, such as topographic and landwater mapping. Recently, airborne multispectral LiDAR sensors, which acquire data at different wavelengths, are available, thus allows recording a diversity of intensity values from different land features. In this study, three normalized difference feature indexes (NDFI), for vegetation, water, and built-up area mapping, were evaluated. The NDFIs namely, NDFIG-NIR, NDFIG-MIR, and NDFINIR-MIR were calculated using data collected at three wavelengths; green: 532 nm, near-infrared (NIR): 1064 nm, and mid-infrared (MIR): 1550 nm by the world’s first airborne multispectral LiDAR sensor “Optech Titan”. The Jenks natural breaks optimization method was used to determine the threshold values for each NDFI, in order to cluster the 3D point data into two classes (water and land or vegetation and built-up area). Two sites at Scarborough, Ontario, Canada were tested to evaluate the performance of the NDFIs for land-water, vegetation, and built-up area mapping. The use of the three NDFIs succeeded to discriminate vegetation from built-up areas with an overall accuracy of 92.51%. Based on the classification results, it is suggested to use NDFIG-MIR and NDFINIR-MIR for vegetation and built-up areas extraction, respectively. The clustering results show that the direct use of NDFIs for land-water mapping has low performance. Therefore, the clustered classes, based on the NDFIs, are constrained by the recorded number of returns from different wavelengths, thus the overall accuracy is improved to 96.98%.
Conference paper (PDF, 2666 KB)


Citation: Morsy, S., Shaker, A., El-Rabbany, A., and LaRocque, P. E.: AIRBORNE MULTISPECTRAL LIDAR DATA FOR LAND-COVER CLASSIFICATION AND LAND/WATER MAPPING USING DIFFERENT SPECTRAL INDEXES, ISPRS Ann. Photogramm. Remote Sens. Spatial Inf. Sci., III-3, 217-224, doi:10.5194/isprs-annals-III-3-217-2016, 2016.

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