Dynamic fec method, device, computer terminal and computer readable storage medium

A computer terminal, dynamic technology, applied in the field of network communication, can solve the problems of poor anti-packet loss and reduced error correction ability of the network, and achieve the effect of improving the anti-packet ability, cost and income balance

Active Publication Date: 2022-02-11
BEIJING CENTURY TAL EDUCATION TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] However, for a network with a high packet loss rate, if only one-dimensional FEC forward error correction is used, its error correction capability will be greatly reduced at this time, and the anti-packet loss capability of the entire network is still poor.

Method used

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  • Dynamic fec method, device, computer terminal and computer readable storage medium
  • Dynamic fec method, device, computer terminal and computer readable storage medium
  • Dynamic fec method, device, computer terminal and computer readable storage medium

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0056] figure 2 It is a schematic flowchart of the method corresponding to the first embodiment of the dynamic FEC method of the present invention.

[0057] The dynamic FEC method includes:

[0058] Step S210, acquiring the current network packet loss rate, current buffering delay and current network bandwidth fed back by the receiving end.

[0059] After the sending end sends the network data to the receiving end, the receiving end can calculate the corresponding real-time network parameter information based on the actually received network data, such as the current network packet loss rate, the current network bandwidth, and the current buffer delay. Among them, the current buffer delay The time refers to the receiving buffer delay when the receiving end receives network data.

[0060] Step S220, calculating a corresponding current weighted network packet loss rate according to the current network packet loss rate.

[0061] Since the current network packet loss rate calc...

Embodiment 2

[0081] Figure 5 It is a schematic flow chart of the second embodiment of the FEC of the present invention, and the only difference from the above-mentioned first embodiment is that the second embodiment of the FEC of the present invention also includes:

[0082] Step S250, judging whether the current weighted network packet loss rate exceeds a second preset threshold, if yes, proceed to step S260; if not, proceed to step S270, where the second preset threshold is less than the first preset threshold .

[0083] Step S260, enabling one-dimensional FEC.

[0084] The second preset threshold is the current weighted network packet loss rate set by judging whether to enable the one-dimensional FEC. When the current network packet loss rate exceeds the second preset threshold, the one-dimensional FEC is enabled.

[0085] In this embodiment, when the packet loss rate of the current network exceeds the second preset threshold, the one-dimensional FEC is turned on, for example, a cont...

Embodiment 3

[0095] Figure 6 It is a schematic flow chart of the third embodiment of the FEC of the present invention, and the only difference from the above-mentioned second embodiment is that the third embodiment of the FEC of the present invention also includes:

[0096] Step S290, when the current weighted network packet loss rate exceeds the second preset threshold, further judge whether the current weighted network packet loss rate exceeds the third preset threshold and is smaller than the first preset threshold, if so , go to step S300; otherwise, go to step S310.

[0097] Step S300, selecting a spaced FEC mode.

[0098] Step S310, selecting a continuous FEC mode.

[0099] Wherein, in addition to setting the first preset threshold and the second preset threshold, a third preset threshold can be further set according to the size of the current weighted network packet loss rate, and the third preset threshold is greater than the second preset threshold and does not exceed the firs...

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Abstract

The present invention relates to a dynamic FEC method, device, computer terminal and computer-readable storage medium. By obtaining the current network packet loss rate fed back by the receiving end, the current buffer delay and the current network bandwidth, the corresponding current weighting is calculated according to the current network packet loss rate. Network packet loss rate, when the current weighted network packet loss rate exceeds the first preset threshold, two-dimensional FEC is turned on, and the corresponding two-dimensional FEC redundancy is calculated according to the current weighted network packet loss rate and the current network bandwidth, according to The two-dimensional FEC redundancy and the current buffer delay generate the corresponding two-dimensional FEC repair package and send it to the receiving end. The two-dimensional FEC can be dynamically selected according to the weighted packet loss rate, which improves the anti-packet loss capability of the network data transmission process. An effective balance is achieved between the overhead and benefits of network bandwidth resources.

Description

technical field [0001] The present invention relates to the field of network communication, in particular to a dynamic FEC method, device, computer terminal and computer-readable storage medium. Background technique [0002] In network data transmission, the loss of network data packets often occurs, which reduces the efficiency of network data transmission and causes the decline of network service quality. Therefore, it is necessary to use some control techniques to improve the reliability of network data packet transmission. [0003] Among them, forward error correction (Forward Error Correction, FEC) is a data packet loss recovery technology widely used. The basic principle of FEC is to insert n-k redundant repair packets into k source data packets, and send these n data packets to the receiving end, where n-k redundant repair packets are encoded and calculated by k source data packets owned. In the case that the number of lost packets does not exceed the limit of the e...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04L1/00
Inventor 张光李幸原
Owner BEIJING CENTURY TAL EDUCATION TECH CO LTD
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