Abstract
Hyperspectral data is not linearly separable, and it has a high characteristic dimension. This paper proposes a new algorithm that combines a deep belief network based on the Boltzmann machine with a self-organizing neural network. The primary features of the hyperspectral image are extracted with a deep belief network. The weights of the network are fine-tuned using the labeled sample. Feature vectors extracted by the deep belief network are classified by a self-organizing neural network. The method reduces the spectral dimension of the data while preserving the large amount of original information in the data. The method overcomes the long training time required when using self-organizing neural networks for clustering, as well as the training difficulties of Deep Belief Networks (DBN) when the labeled sample size is small, thereby improving the accuracy and robustness of the semi-supervised classification. Simulation results show that the structure of the network can achieve higher classification accuracy when the labeled sample is deficient.
Highlights
Spectral imaging technology combines spatial imaging with spectral analysis
There are several more mature classification methods that can be applied to hyperspectral data, including support vector machines (SVMs) and spectral angle mapping (SAM) [10,11,12,13,14,15]
To test the usefulness of the method, three public hyperspectral databases were chosen for study.ToIn the experiments, the deep and a databases self-organizing network were testalltheofusefulness of the method, threebelief publicnetwork hyperspectral were chosen for study
Summary
Spectral imaging technology combines spatial imaging with spectral analysis. With a smaller sample size for data analysis [6,7], the curse of dimensionality, and, concurrently, linear classification faults, this technology may well show its deficiencies [8,9]. There are several more mature classification methods that can be applied to hyperspectral data, including support vector machines (SVMs) and spectral angle mapping (SAM) [10,11,12,13,14,15]. Spectral angle mapping (SAM) relies on a standard expert database [20,21] This method has more applications in multispectral imaging when combined with other algorithms.
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