CN113645441A - Power slice resource distribution system and distribution method based on 5G - Google Patents

Abstract

The invention discloses a power slice resource distribution system and a power slice resource distribution method based on 5G, wherein the system comprises sampling equipment, video collecting and editing transmission equipment, a 5G base station, a slice manager, a local area network, a video server and a mobile terminal, wherein the sampling equipment is used for collecting videos and pictures, and the video collecting and editing transmission equipment is connected with the sampling equipment through a data line. This section resource allocation system based on 5G electric power gathers video and picture through sampling equipment, video adopt to compile transmission equipment and transmit the video and the image that sampling equipment gathered, the 5G basic station is guaranteed for data transmission's speed, the section manager cuts the video, it carries out compression coding to video data to distinguish video server, so that transmit and store video data, but mobile terminal surface display shows video and the picture that sampling equipment gathered, thereby can be more convenient will carry out the section allocation to the video.

Description

Power slice resource distribution system and distribution method based on 5G

Technical Field

The invention relates to the technical field of image video analysis and processing, in particular to a power slice resource allocation system and method based on 5G.

Background

The slice resource distribution system is a system for cutting resources such as videos and pictures, and the videos and the pictures can be more conveniently cut and distributed by cutting and distributing the pictures and the videos, so that the videos and the pictures are more conveniently distributed

This prior art solution also presents the following problems when in use:

1. the traditional system is very troublesome to use, the video is directly transported and transmitted, and the video is not sliced and separated so as to be conveniently distributed;

2. the security of the video and the picture is not strong in the transmission process, so that the video and the picture are easy to leak;

improvements are needed to address the above issues to meet market demands.

Disclosure of Invention

In view of the above, an object of the first aspect of the present invention is to provide a 5G-based power slice resource allocation system, so as to solve the above-mentioned problems that the conventional system is very troublesome to use, the video is directly transported and transmitted, and the video is not partitioned into slices so as to be conveniently allocated.

The purpose of the first aspect of the invention is realized by the following technical scheme:

a 5G-based power slice resource allocation system, comprising:

the system comprises sampling equipment, video collecting, editing and transmitting equipment, a 5G base station, a slice manager, an area network, a video server and mobile terminal sampling equipment, wherein the sampling equipment, the video collecting, editing and transmitting equipment, the 5G base station, the slice manager, the area network, the video server and the mobile terminal sampling equipment are used for collecting videos and pictures;

and the video collecting, editing and transmitting equipment is connected with the sampling equipment through a data line and transmits the video and the images collected by the sampling equipment.

Further, the video collecting, editing and transmitting equipment is also connected with:

the 5G base station is connected with the video collecting and editing transmission equipment through wireless signals, the 5G base station guarantees the data transmission speed, and through the structure, the 5G base station guarantees the data transmission speed.

Further, the 5G base station is further connected with:

the slice manager is connected with the slice manager through a 5G signal, the slice manager divides and distinguishes videos, and through the structure, the slice manager distinguishes videos and pictures.

Further, the slice manager is connected with:

the regional network is connected with the slicing manager and provides safety guarantee for data transmission, and by the structure, the regional network is safer for data transmission.

Further, the area network is connected with:

the video server is used for compressing and encoding the video data so as to transmit and store the video data, and is connected with the area network.

Further, the video server is connected with:

the mobile terminal is connected with the video server, the display is arranged on the surface of the mobile terminal, the display on the surface of the mobile terminal can display videos and pictures collected by the sampling equipment, and the mobile terminal can display the videos and the pictures collected by the sampling equipment through the structure.

Compared with the prior art, the slice resource allocation system based on the 5G electric power has the advantages that the video and the picture are collected through the sampling device, the video collecting, editing and transmitting device transmits the video and the picture collected by the sampling device, the 5G base station guarantees the data transmission speed, the slice manager cuts the video, and the video server is distinguished to compress and encode the video data.

Another aspect of the present invention is to provide a 5G-based power slice resource allocation method, including the following steps:

s1: the video and the picture are collected through a sampling device, the sampling device is connected with a video collecting, editing and transmitting device through a data connecting line after the video and the picture are collected, and the video and the picture are transmitted to the video collecting, editing and transmitting device through the data connecting line;

s2: after the video collecting, encoding and transmitting equipment receives the video and image data transmitted by the sampling equipment, the video collecting, encoding and transmitting equipment compresses the video and image data, so that the space occupied by the video and image data is reduced, the data transmission is more convenient, and the video and image data compressed by the video collecting, encoding and transmitting equipment are transmitted to a slice manager in a wireless transmission mode;

s3: the 5G base station ensures the data transmission speed in the process that the video collecting, editing and transmitting equipment transmits the compressed video and image data to the slice manager, so that the video collecting, editing and transmitting equipment can more quickly transmit the compressed video and image data to the slice manager, and the slice manager can more quickly receive the data;

s4: after the slice manager receives the compressed video and image data transmitted by the video acquisition, coding and transmission equipment, the slice manager cuts the compressed video and image, so that the compressed video and image are cut and classified after being processed, and when the slice manager cuts, classifies and transmits the compressed video and image to the regional network;

s5: after the slicing manager cuts and classifies the compressed video and image and transmits the video and image to the area network, the area network provides stable and safe guarantee for the data transmitted by the slicing manager after cutting and classifying, so that the area network can ensure the stability of data transmission in the process of transmitting the data after cutting and classifying, the occurrence of special conditions, even unnecessary accidents and losses caused by data leakage is avoided, and the area network can realize the sharing of the video and the image;

s6: after the distinguishing video server receives the data after the safety guarantee of the area network, the distinguishing video server compresses and codes the video and picture data transmitted through the area network so as to transmit and store the video data, and then the distinguishing video server transmits the video and picture data to the mobile terminal;

further, the method also includes step S7: after the distinguishing video server transmits the video and picture data to the mobile terminal, a display arranged on the surface of the mobile terminal can display the video and the picture collected by the sampling equipment, so that a worker can more conveniently observe the collected video and picture, and the distinguishing and the distribution of slice resources can be realized through the steps.

The invention has the beneficial effects that:

(1) the video and the picture are collected through the sampling equipment, the video collecting, encoding and transmitting equipment transmits the video and the picture collected by the sampling equipment, the 5G base station ensures the data transmission speed, the slicing manager cuts the video, the video server is distinguished to compress and encode the video data so as to transmit and store the video data, and the surface display of the mobile terminal can display the video and the picture collected by the sampling equipment, so that the video can be sliced and distributed more conveniently.

(2) The invention provides safety guarantee for data transmission through the area network, the area network can ensure the stability of data transmission in the data transmission process, the data leakage is avoided, and the area network can realize the sharing of videos and pictures.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention. The objectives and other advantages of the present invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the accompanying drawings, in which:

FIG. 1 is a schematic diagram of the system topology of the present invention;

FIG. 2 is a schematic flow diagram of the process of the present invention;

fig. 3 is a schematic diagram of the principle of the present invention.

In the figure: 1. a sampling device; 2. video collecting, editing and transmitting equipment; 3. a 5G base station; 4. a slice manager; 5. a regional network; 6. a video server; 7. a mobile terminal.

Detailed Description

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the preferred embodiments are illustrative of the invention only and are not limiting upon the scope of the invention.

As shown in the drawings, a 5G-based power slice resource allocation system of the present invention includes:

the video collecting, editing and transmitting device 2 is connected with the sampling device 1 through a data line, and the video collecting, editing and transmitting device 2 transmits videos and images collected by the sampling device 1.

The video collecting and editing transmission equipment 2 is further connected with a 5G base station 3, the 5G base station 3 is connected with the video collecting and editing transmission equipment 2 through wireless signals, the 5G base station 3 guarantees the speed of data transmission, the 5G base station 3 is further connected with a slice manager 4, the slice manager 4 is connected with the slice manager 4 through 5G signals, and the slice manager 4 cuts and distinguishes videos.

Slice manager 4 is connected with, regional network 5, be connected with slice manager 4, and regional network 5 provides the safety guarantee for data transmission, regional network 5 is connected with, video server 6, carry out compression encoding to video data, so that transmit and store video data, and video server 6 is connected with regional network 5, regional network 5 provides the safety guarantee for data transmission, data transmission's stability can be guaranteed at data transmission's in-process regional network 5, avoid data to take place to leak, and regional network 5 can realize the sharing of video and picture.

The video server 6 is connected with the mobile terminal 7, the mobile terminal 7 is connected with the video server 6, a display is arranged on the surface of the mobile terminal 7, the display on the surface of the mobile terminal 7 can display videos and pictures collected by the sampling device 1, the videos and the pictures are collected by the sampling device 1, the videos and the pictures collected by the sampling device 1 are transmitted by the video collecting, coding and transmitting device 2, the 5G base station 3 ensures the data transmission speed, the slicing manager 4 cuts the videos, the video server 6 is distinguished to compress and code the video data so as to transmit and store the video data, and the display on the surface of the mobile terminal 7 can display the videos and the pictures collected by the sampling device 1, so that the videos can be sliced and distributed more conveniently;

the working principle of the power slice resource allocation system based on 5G is as follows: as shown in fig. 1-3, when the slice resource allocation system based on 5G power is used, firstly, videos and pictures are collected by the sampling device 1, the videos and the images collected by the sampling device 1 are transmitted by the video coding and transmission device 2, the speed of data transmission is guaranteed by the 5G base station 3, the slice manager 4 cuts the videos, the video server 6 is distinguished to compress and code the video data so as to transmit and store the video data, and the surface display of the mobile terminal 7 can display the videos and the pictures collected by the sampling device 1.

The invention discloses a power slice resource allocation method based on 5G, which comprises the following steps:

s1: the video and the picture are collected through the sampling device 1, the sampling device 1 is connected with the video collecting, editing and transmitting device 2 through a data connecting line after the video and the picture are collected, and the video and the picture are transmitted to the video collecting, editing and transmitting device 2 through the data connecting line;

s2: after the video collecting, editing and transmitting device 2 receives the video and image data transmitted by the sampling device 1, the video collecting, editing and transmitting device 2 compresses the video and image data, so that the space occupied by the video and image data is reduced, the data transmission is more convenient, and the video and image data compressed by the video collecting, editing and transmitting device 2 are transmitted to the slice manager 4 in a wireless transmission mode;

s3: in the process that the video mining and editing transmission equipment 2 transmits the compressed video and image data to the slice manager 4, the 5G base station 3 ensures the data transmission speed, so that the video mining and editing transmission equipment 2 can more quickly transmit the compressed video and image data to the slice manager 4, and the data receiving speed of the slice manager 4 is higher;

s4: after the slice manager 4 receives the compressed video and image data transmitted by the video editing and transmitting device 2, the slice manager 4 cuts the compressed video and image, so that the compressed video and image are processed and then are cut and classified, and when the slice manager 4 cuts and classifies the compressed video and image and transmits the video and image to the area network 5;

s5: after the slice manager 4 cuts and classifies the compressed video and image and transmits the video and image to the area network 5, the area network 5 provides stable and safe guarantee for the data transmitted after the slice manager 4 cuts and classifies, so that the area network 5 can ensure the stability of data transmission in the process of transmitting the data after cutting and classifying, the data leakage is avoided, the occurrence of special conditions and even unnecessary accidents and losses are avoided, and the area network 5 can realize the sharing of the video and the image;

s6: after the distinguishing video server 6 receives the data after the safety guarantee is carried out on the area network 5, the distinguishing video server 6 carries out compression coding on the video and picture data transmitted through the area network 5 so as to transmit and store the video data, and then the distinguishing video server 6 transmits the video and picture data to the mobile terminal 7;

s7: after the video server 6 transmits the video and the picture data to the mobile terminal 7, a display arranged on the surface of the mobile terminal 7 can display the video and the picture collected by the sampling device 1, so that a worker can more conveniently observe the collected video and picture.

Finally, the above embodiments are only intended to illustrate the technical solutions of the present invention and not to limit the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions, and all of them should be covered by the claims of the present invention.

Claims (8)

1. A5G-based power slice resource allocation system, comprising:

the sampling device (1) is used for collecting videos and pictures;

the video collecting and editing transmission equipment (2) is connected with the sampling equipment (1) through a data line, and the video collecting and editing transmission equipment (2) transmits videos and images collected by the sampling equipment (1).

2. The 5G-based power slice resource allocation system according to claim 1, wherein the video mining transmission device (2) is further connected with:

and the 5G base station (3) is connected with the video collecting, editing and transmitting equipment (2) through wireless signals, and the 5G base station (3) ensures the data transmission speed.

3. A 5G-based power slice resource allocation system according to claim 2, wherein the 5G base station (3) is further connected with:

and the slice manager (4) is connected with the slice manager (4) through a 5G signal, and the slice manager (4) divides the video into sections.

4. A 5G-based power slice resource allocation system according to claim 3, wherein the slice manager (4) is connected with:

and the area network (5) is connected with the slicing manager (4), and the area network (5) provides safety guarantee for data transmission.

5. A5G-based power slice resource allocation system according to claim 4, wherein the area network (5) is connected with:

and the video server (6) is used for carrying out compression coding on the video data so as to transmit and store the video data, and the video server (6) is connected with the area network (5).

6. A5G-based power slice resource allocation system according to claim 5, wherein the video server (6) is connected with:

and the mobile terminal (7) is connected with the video server (6), a display is arranged on the surface of the mobile terminal (7), and the display on the surface of the mobile terminal (7) can display videos and pictures collected by the sampling equipment (1).

7. A power slice resource allocation method based on 5G is characterized by comprising the following steps:

s1: the video and the picture are collected through the sampling device (1), the sampling device (1) is connected with the video collecting, editing and transmitting device (2) through a data connecting line after the video and the picture are collected, and the video and the picture are transmitted to the collecting, editing and transmitting device (2) through the data connecting line;

s2: after the video collecting, editing and transmitting equipment (2) receives the video and image data transmitted by the sampling equipment (1), the video collecting, editing and transmitting equipment (2) compresses the video and image data, and transmits the video and image data compressed by the video collecting, editing and transmitting equipment (2) to a slice manager (4) in a wireless transmission mode;

s3: in the process that the video collecting, editing and transmitting equipment (2) transmits compressed video and image data to the slice manager (4), a 5G base station (3) is used for ensuring the data transmission speed;

s4: after the slice manager (4) receives the compressed video and image data transmitted by the video acquisition, coding and transmission equipment (2), the slice manager (4) cuts the compressed video and image, so that the compressed video and image are cut and classified after being processed, and when the slice manager (4) cuts and classifies the compressed video and image and transmits the video and image to the area network (5);

s5: after the slice manager (4) cuts and classifies the compressed video and image and transmits the video and image to the area network (5), the area network (5) provides stable and safe guarantee for the data transmitted after the slice manager (4) cuts and classifies;

s6: after the distinguishing video server (6) receives the data after the safety guarantee is carried out on the area network (5), the distinguishing video server (6) compresses and codes the video and picture data transmitted through the area network (5) so as to transmit and store the video data, and then the distinguishing video server (6) transmits the video and picture data to the mobile terminal (7).

8. The 5G-based power slice resource allocation method of claim 7, wherein: further comprising step S7: after the video server (6) transmits the video and picture data to the mobile terminal (7), a display arranged on the mobile terminal (7) displays the video and the picture collected by the sampling device (1).

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