Developing a dust storm detection method combining Support Vector Machine and satellite data in typical dust regions of Asia
Abstract
Enhancing the dust storm detection is a key part for the environmental protection, human healthy and economic development. The goal of this paper is to propose a new Support Vector Machine (SVM)-based method to automatically detect dust storms using remote sensing data. Existing methods dealing with this problem are usually threshold-based that are of great complexity and uncertainty. In this paper we propose a simple and reliable method combining SVM with MODIS L1 data and explore the optimal band combinations used as the feature vectors of SVM. The developed method was evaluated by MODIS and OMI data qualitatively and quantitatively on three study sites located in the Arabian Desert, Gobi Desert and Taklimakan Desert, and it was also compared to three other traditional methods based on their accuracy, complexity, reliability and sensitivity to thresholds. The detection results demonstrated that the combination of (Band7 - Band3)/(Band7 + Band3) ((B7 - B3)/(B7 + B3)), Band20 - Band31 (B20 - B31), and Band31/Band32 (B31/B32) can detect the dust storms more precisely than other individual bands or their combination. The comparison among those cases indicated that the proposed automatic method exhibited an advantage of minimizing the uncertainty and complexity, which were the limits of defining thresholds based on the threshold-based methods. The conclusions can provide references for studies that focus on statistical-based dust storm detection.
- Publication:
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Advances in Space Research
- Pub Date:
- February 2020
- DOI:
- 10.1016/j.asr.2019.11.027
- Bibcode:
- 2020AdSpR..65.1263S
- Keywords:
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- Dust detection;
- Support vector machine (SVM);
- Threshold-based method;
- Moderate resolution imaging spectroradiometer (MODIS);
- Cluster analysis