Abstract
Abstract Reflectance variability in mountainous regions caused by steep slopes can decrease the accuracy of landcover mapping. Topographic correction aims to reduce this effect, and various techniques have been proposed to conduct such correction on satellite imagery. This paper presents the initial results of five different topographic correction techniques applied to LAPAN-A3 multispectral images, namely cosine correction, improved cosine correction, Minnaert correction, modified Minnaert correction and two-stage normalization. The widely-available ALOS World 3D 30 meter DEM was employed, with the evaluation made in a mountainous area in South Sulawesi, Indonesia, located in an ancient volcanic region, with slopes ranging from 0 to 60 degrees. The slope aspect was almost equally distributed in all directions. Visual and statistical analysis was conducted before and after the topographic correction to evaluate the results. Standard deviation (SD) and the coefficient variation (CV) were calculated; the results show that the topographic corrections were able to reduce the effect of shadows and relief. Minnaert correction proved to be the best method in terms of visual appearance and spectral variability reduction.
Highlights
IntroductionThe latest generation of Indonesian satellite known as LAPAN-A3/LAPAN-IPB was launched in October 2016
This paper presents the initial results of five different topographic correction techniques applied to LAPAN-A3 multispectral images, namely cosine correction, improved cosine correction, Minnaert correction, modified Minnaert correction and two-stage normalization
Standard deviation (SD) and the coefficient variation (CV) were calculated; the results show that the topographic corrections were able to reduce the effect of shadows and relief
Summary
The latest generation of Indonesian satellite known as LAPAN-A3/LAPAN-IPB was launched in October 2016. This experimental microsatellite carries a multispectral sensor called the Line Imager Space Application (LISA) among several other sensors. Slopes that are directly oriented towards the sun receive more light than those facing away from it, making them appear brighter in images (Holben and Justice 1980, Vázquez-Jiménez et al 2017). This phenomenon has been acknowledged and studied extensively. This phenomenon has been acknowledged and studied extensively. (Vanonckelen et al 2013) and (Vanonckelen et al 2014) provide a comprehensive list of proposed algorithms to compensate for the topographic effect in EO satellite data
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