Expansion morphology and orthogonal subspace projection combined end member automatic extraction method

An orthogonal subspace, automatic extraction technology, applied in scientific instruments, optical radiation measurement, radiation pyrometry, etc., can solve the problem of indistinguishable endmembers of different types

Inactive Publication Date: 2009-08-12
BEIHANG UNIV
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Problems solved by technology

[0004] The purpose of the present invention is to solve the shortcomings of existing endmember extraction methods starting from a single aspect of data spectrum or space or feature information to decompose mixed pixels, and it is difficult to distinguish different types of endmembers. A Method for Automatically Extracting Endmembers Based on Spatial Projection Combination

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  • Expansion morphology and orthogonal subspace projection combined end member automatic extraction method
  • Expansion morphology and orthogonal subspace projection combined end member automatic extraction method
  • Expansion morphology and orthogonal subspace projection combined end member automatic extraction method

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Embodiment Construction

[0035] In order to better illustrate the endmember automatic extraction method of the combination of extended morphology and orthogonal subspace projection involved in the present invention, using the data of the space-borne Hyperion hyperspectral imager, the method of the present invention is used to obtain the endmembers of altered minerals in the Qulong area of ​​Tibet extract. In the present invention, an endmember automatic extraction method combining extended morphology and orthogonal subspace projection, the specific implementation steps are as follows:

[0036] (1) Hyperspectral remote sensing data reading: read Hyperion hyperspectral data, the data dimension is 255×550×196;

[0037] (2) According to the characteristics of hyperspectral data and the application purpose, determine the size of the structural element and the initial iteration number: the size of the structural element is 5×5, the initial iteration number t=1, and the maximum iteration number t max = 5; ...

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Abstract

The invention relates to a method for automatically extracting end members by combination of expanding morphology and orthogonal subspace projection, which comprises the following steps: (1) reading high-spectrum data; (2) determining the dimension, the initial iteration and the maximum iteration of a structural element; (3) calculating pixels with minimum mixing degree and maximum mixing degree in neighboring areas of the structural element through expansion and corrosion operations; (4) calculating and obtaining the morphological eccentricity index value through the result obtained in the step (3); (5) repeating the step (3) and the step (4) along with the increase of the iteration, and utilizing the result of expansion operation in the step (3) to update image data until the maximum iteration is reached; (6) performing binaryzation on MEI images and obtaining an end member data set; (7) calculating and obtaining a first end member by a spectral corner matching method, and updating the end member data set by the projection in an orthogonal subspace of the obtained end member; and (8) repeating the step (7) until the error requirement is met. The invention is a method for automatically extracting the high-spectrum end members with strong stability, high reliability and high precision.

Description

technical field [0001] The invention relates to an automatic endmember extraction method combined with extended morphology and orthogonal subspace projection, which belongs to the field of hyperspectral data processing methods and application technologies, and is suitable for theoretical methods of hyperspectral data endmember extraction and in fine classification of crops, mineral erosion, etc. Applied technology research in fields such as variable information extraction. Background technique [0002] An essential difference between hyperspectral data processing and traditional remote sensing data processing is that the latter usually divides a single pixel into a different category according to certain rules when classifying ground objects, so as to more accurately reflect remote sensing objects. status. Mixed pixel decomposition is not only an important method to improve the recognition accuracy of ground objects, but also an effective way to quantitatively detect the co...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01J3/00
Inventor 赵慧洁李娜蔡辉贾国瑞徐州
Owner BEIHANG UNIV
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