Satellite-borne super-large-format color video image compression system and compression method

A color video and image compression technology, applied in color TV, color TV parts, TV system parts, etc. Complicated and other problems, to achieve better color reproduction effect, reduce development cost and development difficulty, and improve the effect of compression effect

Inactive Publication Date: 2020-06-02
CHANGGUANG SATELLITE TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] There are two main types of high-definition video compression technology, one is dynamic video compression represented by H.264, which has the advantage of high compression ratio, but the disadvantage is that it does not support lossless compression, except for key frames, the image information of other frames is too damaged , can only be used for video playback, and cannot use the difference in image information between frames for deep processing such as stereoscopic imaging and super-resolution. Video compression has strict restrictions on the frame size. Generally, it is required to meet standard formats such as 3840×2160, 1920×1080, and 1280×720. ;Another type of static image compression represented by JPEG2000 has the advantage of retaining enough details in each frame, but the compression is relatively low, generally 2:1 for lossless, and generally no more than 10:1 for lossy, otherwise it will cause The image quality drops sharply. Generally, only the total pixels of the frame are limited. Taking the ADV212 chip as an example, the lossless mode requires that the frame size does not exceed 256k pixels, and the lossy compression does not exceed 1M pixels.
[0003] There are two methods for color video image compression. One is to directly obtain a color

Method used

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  • Satellite-borne super-large-format color video image compression system and compression method
  • Satellite-borne super-large-format color video image compression system and compression method
  • Satellite-borne super-large-format color video image compression system and compression method

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specific Embodiment 1

[0041] according to figure 1 As shown, the present invention provides a space-borne ultra-large-frame color video image compression system, a space-borne ultra-large-frame color video image compression system, which is characterized in that: the system includes a video camera, a space-borne compression storage system, and a data transmission system 1. Central computer; the video camera is connected to the onboard compression storage system, the onboard compression storage system is connected to the data transmission system, and the onboard compression storage system is connected to the central computer.

[0042] The on-board compression storage system includes Cameralink, SSD storage unit, 4-way ADV212, communication control unit, data cache and scheduling module, data transmission framing module and data transmission frame sending module;

[0043] The video camera is connected to the Cameralink, and the Cameralink is connected to the data cache and scheduling module, the data...

specific Embodiment 2

[0046] according to figure 2 As shown, taking the lossy situation as an example, the present invention provides a method for compressing a space-borne super-large-frame color video image, which specifically includes the following steps:

[0047] Step 1: Use a video camera to collect high-speed video image data, receive high-speed video image data through Cameralink, and store the high-speed video image data to the SSD storage unit;

[0048] Step 2: Read the high-speed video image data in the SSD storage unit, perform spectral segment separation, tile sub-block segmentation, and transmit to 4-way ADC212 for compression;

[0049] Step 2.1: Read the high-speed video image data in the SSD storage unit, and perform spectral segment separation. According to the pixel arrangement of the Bayer color image sensor, for each sensor readout channel, the pixels are read out row by row without distinguishing the spectral segments Type, the four sub-spectrums of RGGB are mixed and read out...

specific Embodiment 3

[0067] Take the Jilin-1 video satellite as a case to illustrate the implementation process:

[0068] Spectrum separation: According to the pixel arrangement (RGGB) of the Bayer color image sensor, the full-frame 12000×5000 is divided into 4 groups of 6000×2500 pixel sub-spectrum images according to the sub-spectrum;

[0069] Tile segmentation: ADV212 lossy compression can allow a maximum compressed sub-block of 1M pixels, and the maximum value of the row and column cannot exceed 2048 pixels. The larger the compressed sub-block, the better the compression effect. Since the sub-spectrum image is 6000×2500 pixels, about 15M pixels need to be divided into at least 15 blocks. According to the principle of the largest tile, we choose the 3×5 tile division method to form 15 compressed sub-blocks of 1M pixels. Each compressed sub-block is 2048×512 pixels to achieve 72 pixels between columns. Pixel overlap, 15 pixel overlap between rows.

[0070] Tile sub-block caching and compression...

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Abstract

The invention relates to a satellite-borne super-large format color video image compression system and compression method. The system comprises a video camera, a satellite-borne compression storage system, a data transmission system and a central machine, wherein the video camera is connected with the satellite-borne compression storage system, the satellite-borne compression storage system is connected with the data transmission system, and the satellite-borne compression storage system is connected with the central machine. Through tile cutting, compression can be completed by adopting industrial universal devices such as ADV212, and the development cost and the development difficulty of a satellite-borne compression storage system can be reduced. In the prior art, direct color compression is carried out after on-satellite bayer interpolation. Due to the fact that color precision loss can be caused due to the fact that an accurate algorithm with overlarge calculation amount cannot beadopted under the influence of calculation resources, spectrum segment separation belongs to a reversible process, color loss is avoided, after sub-spectrum segment data are obtained through ground decompression, an interpolation algorithm with higher precision can be adopted, and the color restoration effect is better.

Description

technical field [0001] The invention relates to the technical field of on-orbit compression of satellite-borne ultra-high-definition video color images, and relates to a space-borne ultra-large-frame color video image compression system and compression method. Background technique [0002] There are two main types of high-definition video compression technology, one is dynamic video compression represented by H.264, which has the advantage of high compression ratio, but the disadvantage is that it does not support lossless compression, except for key frames, the image information of other frames is too damaged , can only be used for video playback, and cannot use the difference in image information between frames for deep processing such as stereoscopic imaging and super-resolution. Video compression has strict restrictions on the frame size. Generally, it is required to meet standard formats such as 3840×2160, 1920×1080, and 1280×720. ;Another type of static image compressi...

Claims

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Application Information

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IPC IPC(8): H04N9/04H04N5/77H04N5/378
CPCH04N5/77H04N23/84H04N25/75
Inventor 贺小军王行行戴路闫磊韦宗喜于树海
Owner CHANGGUANG SATELLITE TECH CO LTD
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