Sentinel-2 Satellite Imagery for Urban Land Cover Classification by Optimized Random Forest Classifier

Land cover classification is able to reflect the potential natural and social process in urban development, providing vital information to stakeholders. Recent solutions on land cover classification are generally addressed by remotely sensed imagery and supervised classification methods. However, a...

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Bibliographic Details
Published in:Applied sciences 2021-01, Vol.11 (2), p.543
Main Authors: Zhang, Tianxiang, Su, Jinya, Xu, Zhiyong, Luo, Yulin, Li, Jiangyun
Format: Article
Language:English
Subjects:
Algorithms
Bands
Bayesian analysis
bayesian optimization
Classification
Crop fields
Decision trees
Deep learning
hyperparameter tuning
Image classification
Image processing
Land cover
land cover classification
Land use
Machine learning
Neural networks
Optimization
random forest
Remote sensing
Satellite imagery
Satellites
Sentinel-2 satellite
Support vector machines
Urban areas
Urban development
urban management
Urban planning
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Summary:Land cover classification is able to reflect the potential natural and social process in urban development, providing vital information to stakeholders. Recent solutions on land cover classification are generally addressed by remotely sensed imagery and supervised classification methods. However, a high-performance classifier is desirable but challenging due to the existence of model hyperparameters. Conventional approaches generally rely on manual tuning, which is time-consuming and far from satisfying. Therefore, this work aims to propose a systematic method to automatically tune the hyperparameters by Bayesian parameter optimization for the random forest classifier. The recently launched Sentinel-2A/B satellites are drawn to provide the remote sensing imageries for land cover classification case study in Beijing, China, which have the best spectral/spatial resolutions among the freely available satellites. The improved random forest with Bayesian parameter optimization is compared against the support vector machine (SVM) and random forest (RF) with default hyperparameters by discriminating five land cover classes including building, tree, road, water, and crop field. Comparative experimental results show that the optimized RF classifier outperforms the conventional SVM and the RF with default hyperparameters in terms of accuracy, precision, and recall. The effects of band/feature number and the band usefulness are also assessed. It is envisaged that the improved classifier for Sentinel-2 satellite image processing can find a wide range of applications where high-resolution satellite imagery classification is applicable.
ISSN:2076-3417
2076-3417
DOI:10.3390/app11020543