Hyperspectral Image Classification Method Based on Spatial-Spectral Joint of Deep Convolutional Neural Networks

A convolutional neural network and hyperspectral image technology, which is applied in the field of hyperspectral image classification combined with spatial spectrum, can solve the problems of affecting accuracy, large amount of calculation in dimensionality reduction processing, loss of spectral information, etc., so as to improve classification accuracy and solve classification problems. Inaccurate effect

Active Publication Date: 2018-11-30
陕西令一盾信息技术有限公司
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Problems solved by technology

[0004] However, the existing methods for extracting spatial spectral features of hyperspectral images using deep models are very complicated. First, it is often necessary to reduce the dimensionality of the original hyperspectral image in spectral space, and then The information after dimensionality reduction is combined with the spectral information to obtain the spatial spectral feature
Dimensionality reduction is computationally intensive, and certain spectral information is lost, affecting accuracy

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  • Hyperspectral Image Classification Method Based on Spatial-Spectral Joint of Deep Convolutional Neural Networks

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[0021] Now in conjunction with embodiment, accompanying drawing, the present invention will be further described:

[0022] Step 1 Input the specular image data, according to the formula Normalize the data. Where ij represents the coordinate position s represents the spectrum segment, generally 100-240 spectrum segment, x max 、x min represent the maximum and minimum values ​​in the 3D hyperspectral data, respectively.

[0023] Step 2 Extract the original spatial spectral features, and in the hyperspectral image, a total of nine pixel vectors of the central pixel and eight neighboring pixels Extracted as the original spatial spectral feature of the center pixel at (i, j) position.

[0024] Step 3 randomly extracts a small amount of labeled data from the data extracted in step 2 as the data for training CNN.

[0025] Step 4 Construct a convolutional neural network, take the original spatial spectral feature extracted in step 2 as input, use a one-dimensional vector as the ...

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Abstract

The present invention relates to a hyperspectral image classification method based on a space-spectrum combination of a deep convolutional neural network, which introduces the traditional deep convolutional neural network applied to two-dimensional images into the three-dimensional hyperspectral image classification problem. First, use a small amount of labeled data to train the convolutional neural network, and use the network to autonomously extract the spatial spectral features of the hyperspectral image without any compression and dimensionality reduction; then, use the extracted spatial spectral features to train the support vector machine ( SVM) classifier to classify the image; finally, in combination with the trained neural network and the trained classifier, the neural network extracts the spatial spectral features of the target to be classified, and the classifier determines the specific category of the extracted spatial spectral features, A structure (DCNN‑SVM) that can autonomously extract the spatial spectral features of hyperspectral images and classify them is obtained, thus forming a set of hyperspectral image classification methods.

Description

technical field [0001] The invention belongs to the technical field of remote sensing information processing, and relates to a hyperspectral image classification method, in particular to a hyperspectral image classification method based on a space-spectrum combination of a deep convolutional neural network. Background technique [0002] Hyperspectral remote sensing images have high spectral resolution, multiple imaging bands, and large amounts of information, and are widely used in remote sensing applications. Hyperspectral image classification technology plays an important role in these applications. The features used for classification are extracted from the original hyperspectral image. This step has a great impact on the classification accuracy of hyperspectral images. Improve the classification accuracy; on the contrary, the classification features with poor robustness will significantly reduce the classification effect. [0003] In recent years, deep learning has made...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06K9/62
CPCG06F18/2411
Inventor 李映张号逵刘韬
Owner 陕西令一盾信息技术有限公司
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