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A big data three-dimensional display method and display system

A three-dimensional display and big data technology, applied in the computer field, can solve the problems of insufficient three-dimensional display processing capacity of big data, rough screen display, etc., and achieve the effects of reducing the amount of three-dimensional data, ensuring security, and improving response time

Active Publication Date: 2019-03-15
冯贵良
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In view of this, this application proposes a big data three-dimensional display method and display system, which is dedicated to solving the technical problems of insufficient processing capacity and rough screen display of big data three-dimensional display in the prior art

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  • A big data three-dimensional display method and display system
  • A big data three-dimensional display method and display system
  • A big data three-dimensional display method and display system

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0058] The workflow of the system is as follows: figure 2 As shown, the big data three-dimensional display method includes the following steps:

[0059] S210. Read the input video image;

[0060] The video image data is obtained from the three-dimensional data acquisition device, and the video image data sent by other sending devices can also be received.

[0061] S220. Separate the background model from the video image to obtain a moving image. Including the following sub-steps:

[0062] S2201. Differentiate the input video image from the background model;

[0063] According to the obtained background model, the method of difference is used from the video stream to obtain the moving image, and the vertex array, vertex normal vector array, polygon topology information array and texture coordinate array of the moving image are obtained.

[0064] S2202. Save the difference result as a moving image.

[0065] Before starting S220, a step of pre-generating a background model ...

Embodiment 2

[0098] The above combined Figure 1-5 A brief introduction to the workflow of this application, combined below Figure 6-8 , to introduce the detailed structure of the big data three-dimensional display device 2 of the present application. The big data three-dimensional display device 2 is used to execute the above-mentioned display method, including such as Figure 6 Parts shown:

[0099] Reader 610, reads the input video image;

[0100] The reader 610 obtains video image data from a three-dimensional data acquisition device, and may also receive video image data sent by other sending devices.

[0101] Separator 620, separating the background model from the video image to obtain a moving image.

[0102] A difference component 710, making a difference between the input video image and the background model;

[0103] According to the obtained background model, the method of difference is used from the video stream to obtain the moving image, and the vertex array, vertex nor...

Embodiment 3

[0129] The structure of the big data three-dimensional display device 2 has been introduced above, combined below Figure 9 Introduce the composition of the client, including the following components:

[0130] Parser 910, the client uses a scripting language to parse property files and data files;

[0131] The parser 910 uses a script language to parse the obtained webpage file to obtain the attribute file and data file therein. Optionally, if the data file in the webpage file is an encrypted file, a corresponding decryption process is performed on the client, including using a decryption key to decrypt the data file, and performing a decryption process opposite to that of encryption.

[0132] A synthesizer 920, generating a moving image according to the attribute file and data file obtained by parsing;

[0133] A moving image is reconstructed from the obtained property files and data files.

[0134] The registerer 930 registers the moving image with the background model to...

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Abstract

This application discloses a big data three-dimensional display method and display system, wherein the method includes the following steps: reading the input video image; separating the background model from the video image to obtain a moving image; generating attribute files and data files according to the moving image , and use the script language to express the attribute file and the data file, and generate the webpage file; send the webpage file to the client; the client uses the script language to analyze the attribute file and the data file; generate a moving image according to the attribute file and the data file obtained by parsing; The moving image is registered with the background model to generate a 3D image. The big data three-dimensional display method and display system proposed in this application can reduce the amount of three-dimensional data sent, improve the response time of the client's three-dimensional display, and at the same time encrypt the three-dimensional data to be transmitted to ensure data security.

Description

technical field [0001] The present application belongs to the field of computer technology, and in particular, relates to a three-dimensional big data display method and a display system. Background technique [0002] With the rapid development of 3D imaging technology, the display of 3D images, especially the display on the network side, has become a difficult problem for technicians. How to send 3D images with a huge amount of data to the network side, how to display 3D images on the network side without lag, Become the bottleneck of the three-dimensional image display known as big data. [0003] The existing 3D image display needs to send the complete 3D data to the client, and the client performs 3D display after receiving it. Due to the large amount of 3D image data, the network transmission is blocked. At the same time, the reconstruction of the 3D image at the client also costs As a result, the 3D image display on the client side often suffers from freezes and crashe...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06F16/957G06T17/00H04L9/06H04L29/06H04L29/08
CPCH04L9/06H04L63/0428H04L67/06G06F16/957G06T17/00H04L67/5651
Inventor 冯贵良
Owner 冯贵良