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A single-pixel infrared target detection method

A technology of infrared targets and detection methods, which is applied in the directions of instruments, calculations, character and pattern recognition, etc., can solve the problems of high false alarm rate, weak target, inability to distinguish target and background, etc., and achieve the goal of reducing false alarm rate and improving contrast Effect

Active Publication Date: 2022-03-08
西安艾晟信息技术有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

As a key technology in the field of infrared early warning, the detection of small infrared targets is an important research direction. The difficulties are: 1) the target is weak and there is no texture information, which leads to low detection accuracy; 2) background noise interference leads to false detection High alert rate
Several methods based on the human visual system use median filtering and other methods to filter out noise during the target detection process, and smooth the target while eliminating noise, resulting in the inability to distinguish between the target and the background in the subsequent target enhancement and extraction process. Therefore, single-pixel infrared target detection cannot be realized
Therefore, the difficulty of single-pixel infrared target detection lies in: 1) the noise of the imager or the gray value of the blind pixel is higher than the target pixel, causing great interference; 2) the target is extremely weak, the signal-to-noise ratio is extremely low, and it is almost submerged in the background
From the above two technical difficulties, we can see that the existing single-pixel infrared target detection method has a high false alarm rate.

Method used

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  • A single-pixel infrared target detection method

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Embodiment 1

[0044] see figure 1 , which is a flowchart of a single-pixel infrared target detection method provided in this embodiment. A single-pixel infrared target detection method, comprising the following steps:

[0045]S1: Obtain the contrast map M of the infrared image.

[0046] S2: Obtain the contrast image M and its filtered image M F The pixel difference value of each pixel, where the filtered image M F An image obtained after performing Gaussian filtering on the contrast map M; if the pixel difference value is not less than 1, then retain the pixel difference value, if the pixel difference value is less than 1, then replace the pixel difference value with 1, Thus, the difference image B is obtained.

[0047] Wherein, the specific calculation method of the difference image B is:

[0048] B=max{M-M F ,1}

[0049] S3: Perform a dot product operation on the contrast image M and the difference image B to obtain an enhanced filtered image H, and a pixel in the enhanced filtered...

Embodiment 2

[0053] In order to eliminate noise and effectively retain the information of a single-pixel infrared target, based on the above embodiment, before obtaining the contrast map M of the infrared image in this embodiment, the original infrared image is first updated based on the neighborhood gray scale ratio ratio to obtain the updated After the infrared image, the contrast map M is obtained again. A method for updating an infrared image is described in detail below, including the following steps:

[0054] Get the neighborhood grayscale ratio ratio(i,j) of the original infrared image pixel (i,j), if the neighborhood grayscale ratio ratio(i,j) is within the preset range, keep the pixel point (i,j) If the neighborhood grayscale ratio ratio(i,j) is not in the preset range, update the pixel value of the pixel point (i,j) to the median filter centered on the pixel point (i,j) As a result, an updated infrared image is acquired, and then subsequent steps are performed.

[0055] Optiona...

Embodiment 3

[0078] Based on the above embodiments, this embodiment can also further enhance the single-pixel infrared target, that is, to realize target enhancement and background suppression by using the property that the radiation-weighted contrast between the single-pixel infrared target and surrounding four neighboring points is large. The method for obtaining the contrast map M will be described in detail below.

[0079] The method of obtaining the contrast map M of the infrared image is:

[0080] A window of a set size is used to slide on the infrared image until the entire infrared image is traversed, and the radiation-weighted contrast R of the pixel is determined, thereby obtaining the contrast map M; wherein, the determination method of the radiation-weighted contrast R of the pixel includes the following steps :

[0081] S101: Obtain the contrast c of the window center pixel point and its eight neighbor points k , where k=1,2,3,...,8. specifically:

[0082]

[0083] Amon...

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Abstract

The present invention provides a single-pixel infrared target detection method. The contrast image M and the difference image B are subjected to a dot product operation to obtain an enhanced filtered image H. This high-frequency enhancement method can enhance the single-pixel infrared target. Improve the contrast between the single-pixel target and the background, thereby effectively reducing the false alarm rate of single-pixel target detection.

Description

technical field [0001] The invention belongs to the technical field of infrared target detection, and in particular relates to a single-pixel infrared target detection method. Background technique [0002] With the rapid development of infrared imager technology, infrared imaging systems are widely used in military or civilian fields such as target detection, air defense early warning, and security monitoring. They have the advantages of good concealment and strong anti-interference performance. As a key technology in infrared early warning and other fields, infrared weak and small target detection is an important research direction. The difficulties are: 1) the target is weak and there is no texture information, which leads to low detection accuracy; 2) background noise interference leads to false detection. The alert rate is high. The above problems pose serious challenges to the accurate detection of small infrared targets. [0003] In the field of small infrared target...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06V20/00
CPCG06V20/00G06V2201/07
Inventor 唐林波南京宏邓宸伟张增铄赵保军
Owner 西安艾晟信息技术有限公司