A Review of Kernel Methods in Remote Sensing Data Analysis

L. Gómez-Chova, J. Muñoz, V. Laparra, J. Malo and G. Camps  
Book chapter 9 in: Optical Remote Sensing – Advances in Signal Processing and Exploitation Techniques
Saurabh Prasad, Lori Bruce and Jocelyn Chanussot, Eds.
Springer-Verlag, 2010

Abstract

Kernel methods have proven effective in the analysis of images of the Earth acquired by airborne and satellite sensors. Kernel methods provide a consistent and well-founded theoretical framework for developing nonlinear techniques and have useful properties when dealing with low number of (potentially high dimensional) training samples, the presence of heterogenous multimodalities, and different noise sources in the data. These properties are particularly appropriate for remote sensing data analysis. In fact, kernel methods have improved results of parametric linear methods and neural networks in applications such as natural resource control, detection and monitoring of anthropic infrastructures, agriculture inventorying, disaster prevention and damage assessment, anomaly and target detection, biophysical parameter estimation, band selection, and feature extraction.

This chapter provides a survey of applications and recent theoretical developments of kernel methods in the context of remote sensing data analysis. The specific methods developed in the fields of supervised classification, semisupervised classification, target detection, model inversion, and nonlinear feature extraction are revised both theoretically and through experimental (illustrative) examples. The emergent fields of transfer, active, and structured learning, along with efficient parallel implementations of kernel machines, are also revised.

Keywords:
Kernel methods, Regression, Classification, Feature extraction

References: 90


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