Abstract
Abstract. One of the problems in dealing with optical images for large territories (more than 10,000 sq. km) is the presence of clouds and shadows that result in having missing values in data sets. In this paper, a new approach to classification of multi-temporal optical satellite imagery with missing data due to clouds and shadows is proposed. First, self-organizing Kohonen maps (SOMs) are used to restore missing pixel values in a time series of satellite imagery. SOMs are trained for each spectral band separately using nonmissing values. Missing values are restored through a special procedure that substitutes input sample's missing components with neuron's weight coefficients. After missing data restoration, a supervised classification is performed for multi-temporal satellite images. An ensemble of neural networks, in particular multilayer perceptrons (MLPs), is proposed. Ensembling of neural networks is done by the technique of average committee, i.e. to calculate the average class probability over classifiers and select the class with the highest average posterior probability for the given input sample. The proposed approach is applied for regional scale crop classification using multi temporal Landsat-8 images for the JECAM test site in Ukraine in 2013. It is shown that ensemble of MLPs provides better performance than a single neural network in terms of overall classification accuracy, kappa coefficient, and producer's and user's accuracies for separate classes. The overall accuracy more than 85% is achieved. The obtained classification map is also validated through estimated crop areas and comparison to official statistics.
Highlights
Geographical location and distribution of crops at global, national and regional scale is an extremely valuable source of information for many applications
relative root mean square error (RRMSE) values are dependant on the Landsat-8 spectral bands with minimum value being for Band 5 (11.4%) and maximum value being for Band 4 (19.7%)
The second scheme (Scheme 2) utilizes a committee of multilayer perceptrons (MLPs) that are trained on different training data sets that are randomly divided into five disjoint subsets
Summary
Geographical location and distribution of crops at global, national and regional scale is an extremely valuable source of information for many applications. Remote sensing images from space have always been an obvious and promising source of information for deriving crop maps. This is mainly due capabilities to timely acquire images and provide repeatable, continuous, human independent measurements for large territories. Coarse-resolution imagery (at least 250 m spatial resolution) has been utilized to derive global cropland extent (e.g. GlobCover, MODIS) Even these maps provide variable quality and reliability in capturing cropland (Fritz et al, 2013). With availability of Landsat-8 and Sentinel images and their synergic exploitation (Roy et al, 2014), it becomes possible to generate crop specific maps at high spatial resolution scale for main agriculture regions
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