Giona Matasci scite author profile

The increase in spatial and spectral resolution of the satellite sensors, along with the shortening of the time-revisiting periods, has provided high-quality data for remote sensing image classification. However, the high-dimensional feature space induced by using many heterogeneous information sources precludes the use of simple classifiers: thus, a proper feature selection is required for discarding irrelevant features and adapting the model to the specific problem. This paper proposes to classify the images and simultaneously to learn the relevant features in such high-dimensional scenarios. The proposed method is based on the automatic optimization of a linear combination of kernels dedicated to different meaningful sets of features. Such sets can be groups of bands, contextual or textural features, or bands acquired by different sensors. The combination of kernels is optimized through gradient descent on the support vector machine objective function. Even though the combination is linear, the ranked relevance takes into account the intrinsic nonlinearity of the data through kernels. Since a naive selection of the free parameters of the multiple-kernel method is computationally demanding, we propose an efficient model selection procedure based on the kernel alignment. The result is a weight (learned from the data) for each kernel where both relevant and meaningless image features automatically emerge after training the model. Experiments carried out in multi-and hyperspectral, contextual, and multisource remote sensing data classification confirm the capability of the method in ranking the relevant features and show the computational efficience of the proposed strategy.

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Three decades of forest structural dynamics over Canada's forested ecosystems using Landsat time-series and lidar plots

Matasci

Hermosilla

Wulder

et al. 2018

Remote Sensing of Environment

121

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Semisupervised Transfer Component Analysis for Domain Adaptation in Remote Sensing Image Classification

Matasci

Volpi

Kanevski

et al. 2015

IEEE Trans. Geosci. Remote Sensing

191

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Assessing rockfall susceptibility in steep and overhanging slopes using three-dimensional analysis of failure mechanisms

et al. 2017

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Giona Matasci

Large-area mapping of Canadian boreal forest cover, height, biomass and other structural attributes using Landsat composites and lidar plots

Learning Relevant Image Features With Multiple-Kernel Classification

Three decades of forest structural dynamics over Canada's forested ecosystems using Landsat time-series and lidar plots

Semisupervised Transfer Component Analysis for Domain Adaptation in Remote Sensing Image Classification

Assessing rockfall susceptibility in steep and overhanging slopes using three-dimensional analysis of failure mechanisms

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