Abstract
Timely and accurate information on crop mapping and monitoring is necessary for agricultural resources management. Accordingly, the applicability of the proposed classification-feature selection ensemble procedure with different feature sets for crop mapping is investigated. Here, we produced various feature sets including spectral bands, spectral indices, variation of spectral index, texture, and combinations of features to map different types of crops. By using various feature sets and the random forest (RF) classifier, the crop maps were created. In aiming to determine the most relevant and distinctive features, the particle swarm optimization (PSO) and RF-variable importance measure feature selection methods were examined. The classification-feature selection ensemble procedure was adapted to combine the outputs of different feature sets from the better feature selection method using majority votes. Multi-temporal Sentinel-2 data has been used in Ghale-Nou county of Tehran, Iran. The performance of RF was efficient in crop mapping especially by spectral bands and texture in combination with other feature sets. Our results showed that the PSO-based feature selection leads to a more accurate classification than the RF-variable importance measure, in almost all feature sets for all crop types. The RF classifier-PSO ensemble procedure for crop mapping outperformed the RF classifier in each feature set with regard to the class-wise and overall accuracies (OA) (of about 2.7–7.4% increases in OA and 0.48–3.68% (silage maize), 0–1.61% (rice), 2.82–15.43% (alfalfa), and 10.96–41.13% (vegetables) improvement in F-scores for all feature sets). The proposed method could mainly be useful to differentiate between heterogeneous crop fields (e.g., vegetables in this study) due to their more obtained omission/commission errors reduction.
Highlights
To ensure world food security and agricultural resources management and conservation, it is of utmost importance that decision makers [1,2] are able to attain reliable and timely information on agricultural production and cropland mapping with sufficient accuracies [3,4,5]
The overall accuracy (OA), Kappa coefficient (K), and F-score were calculated from the confusion matrix in MATLAB and Microsoft Excel software in order to evaluate the accuracy of the produced crop type maps
Results from feeding the features obtained from the random forest (RF)-variable importance measure and particle swarm optimization (PSO) approach to the RF model indicated an increase of about 0.22% to 1.06% and 0.66% to 2.22% in the overall accuracy, respectively, for all feature sets as opposed to when no feature selection algorithm was applied (Table 5)
Summary
To ensure world food security and agricultural resources management and conservation, it is of utmost importance that decision makers [1,2] are able to attain reliable and timely information on agricultural production and cropland mapping with sufficient accuracies [3,4,5]. Multi-temporal data entails a great number of features for each image acquisition date [14,16,17], and applying spectral and texture features to the original bands of images may increase the dimensionality of the data, where it detrimentally affects the accuracy of the classifier due to the Hughes effect [18]. The efficiency of optical data for crop mapping and crop parameter retrieval is acknowledged by [1,15,16,19,20,21,22,23,24,25,26] These studies have mostly assessed the effects of incorporating different features and different input data for improving classification accuracy. It is of ultimate significance to reduce data redundancy to discriminate different crops, in complex land cover cases [16]
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