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A high spectrum exception detection method purifying backgrounds based on the local density

A local density and anomaly detection technology, which is applied in the field of hyperspectral anomaly detection, can solve problems such as covariance distortion, statistical information distortion, complex and changeable hyperspectral image background, etc., and achieve the effect of reducing false alarm rate and enhancing the degree of difference

Inactive Publication Date: 2018-04-10
THE 28TH RES INST OF CHINA ELECTRONICS TECH GROUP CORP
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Problems solved by technology

However, in actual situations, hyperspectral images generally have a variety of ground objects, and are affected by shadows, light, and atmospheric interference. The background of the acquired hyperspectral images is complex and changeable.
Therefore, the multidimensional Gaussian distribution model cannot fully reflect the distribution characteristics of real hyperspectral image features.
As long as there is 0.5% data pollution, there will be a problem of covariance distortion
For hyperspectral images, the complexity of the background distorts the statistical information, which makes the false alarm rate of the RX detection method higher

Method used

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  • A high spectrum exception detection method purifying backgrounds based on the local density
  • A high spectrum exception detection method purifying backgrounds based on the local density
  • A high spectrum exception detection method purifying backgrounds based on the local density

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Embodiment Construction

[0053] The present invention will be further described below in conjunction with the accompanying drawings and embodiments.

[0054] The present invention comprises the steps:

[0055] Step (1) Input hyperspectral image, such as Figure 2a with Figure 2b as shown, Figure 2b for figure 1 A subimage with a spatial size of 100×100. Figure 2c The distribution position of the target is given, which is used to judge whether the detected pixel is the position of the real target.

[0056] Step (2) For the detected pixels of the current hyperspectral image, use the concentric double-layer window model (such as image 3 shown) to obtain the corresponding initial background. The concentric double window model is the superposition of two rectangular windows with the same center, divided into inner windows and outer windows. The size of the double-layer window is determined according to the size of the target of interest and the size of the entire detection image. Generally, the ...

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Abstract

The invention provides a high spectrum exception detection method purifying backgrounds based on the local density. The method comprises the steps of: firstly acquiring an initial background corresponding to a currently detected pixel by using a concentric double-layer window model; then calculating the local density of each pixel of the initial background; setting the maximum exception proportionand selecting the pixel corresponding to the minimum local density according to the proportion; dividing the background by using the maximum between-cluster variance method; detecting a high spectrumimage based on an LRXD exception detection method; setting a threshold value, marking pixels with the detection values greater than the threshold value as exceptional points. The method removes exceptional data in backgrounds by purifying the backgrounds, thereby facilitating analysis of differences in targets and backgrounds and effectively reducing the false alarm rate.

Description

technical field [0001] The invention relates to a hyperspectral anomaly detection method, in particular to a hyperspectral anomaly detection method based on a local density purification background. Background technique [0002] Hyperspectral image is a new type of three-dimensional remote sensing data that combines map and spectrum with high spectral resolution and many continuous spectral bands. This provides rich discriminative information for object detection. According to whether the object detection utilizes prior information (generally the object spectrum), it can be divided into two categories: supervised object detection and unsupervised object detection. Unsupervised target detection is also called abnormal target detection. In the case of unknown prior information, anomaly detection directly uses the spectral difference between the background and the target to detect abnormal points in the image. Anomaly detection methods provide a solution to the detection and r...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06T7/00G06T7/194
CPCG06T7/0002G06T7/194G06T2207/10036
Inventor 王鑫鹏胡振李晓冬吴蔚马文婷王慧娟张桂林徐琳熊朝华许莺宗士强
Owner THE 28TH RES INST OF CHINA ELECTRONICS TECH GROUP CORP
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