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Low-latency on-board Ethernet audio stream processing system and method

An Ethernet, low-latency technology, applied in the field of airborne audio data processing systems, can solve problems such as processing delay fluctuations, loud voice playback stuttering or noise, etc.

Active Publication Date: 2018-10-16
CETC AVIONICS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The technical problem to be solved by the present invention is the high-speed processing of airborne audio, and the purpose is to provide a low-latency system for processing airborne Ethernet audio streams, so as to solve the problem of lagging or noise in sound playback due to excessive fluctuations in processing delays

Method used

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  • Low-latency on-board Ethernet audio stream processing system and method
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  • Low-latency on-board Ethernet audio stream processing system and method

Examples

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Embodiment 1

[0059] Such as figure 1 , 2 Shown, the present invention a kind of system of low-latency processing airborne Ethernet audio flow, comprises audio module, and described audio module is connected with interface module through FPGA module;

[0060] Audio module: receive and play the analog audio processed by the FPGA module; collect analog audio and send it to the FPGA module;

[0061] FPGA module: receive the analog audio sent by the audio module and decode it to obtain digital audio, group the digital audio according to the ARINC628P3 protocol and send it out through the interface module; receive the audio data packet sent by the interface module, and perform unpacking and post-processing according to the ARINC628P3 protocol Send to the audio module for analog audio;

[0062] Interface module: provide the interface between the outside world and the FPGA module, the interface circuit between the FPGA module and the peripheral, and the power supply of the device.

[0063] The ...

Embodiment 2

[0072] In this embodiment, a low-latency method for processing an onboard Ethernet audio stream includes the following steps:

[0073] A. Process the external analog audio signal through the FPGA and send it out as an audio data packet that meets the ARINC628P3 protocol;

[0074] B. Process the audio data packets sent externally that meet the ARINC628P3 protocol into analog audio signals for playback.

[0075] In the described step A, the method that the external analog audio signal is processed by the FPGA as an audio data packet that meets the ARINC628P3 protocol and sends out includes the following steps that are carried out in sequence:

[0076] A1. Receive external analog audio signals through the audio module;

[0077] A2. The audio module processes the analog audio signal FPGA module, and the FPGA module processes the analog audio signal into a digital audio signal;

[0078] A3. According to the ARINC628P3 protocol, the FPGA module realizes the grouping of digital aud...

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Abstract

The invention discloses a low-latency on-board Ethernet audio stream processing system. The system comprises an audio module, an FPGA module, and an interface module, wherein the audio module is connected with the interface module through the FPGA module, the audio module receives and plays an analog audio processed by the FPGA module, and collects and sends an analog audio to the FPGA module, theFPGA module receives and decodes the analog audio sent by the audio module so as to obtain a digital audio, packages the digital audio according to an ARINC628P3 protocol and then sends out through the interface module, receives an audio data packet sent by the interface module, unpacks according to an ARINC628P3 protocol and then processes to obtain an analog audio and sends the analog audio tothe audio module, and the interface module provides an interface between the external environment and the FPGA module, an interface circuit between the FPGA module and periphery, and provides power for devices. Through adoption of the low-latency on-board Ethernet audio stream processing system, the problem that audio broadcast freezes or has noise due to overlarge fluctuation of processing latency is solved.

Description

technical field [0001] The invention relates to an airborne audio data processing system, in particular to a low-latency system for processing airborne Ethernet audio streams. Background technique [0002] The cross-linking method of the airborne avionics system is gradually shifting from traditional low-speed protocols, such as ARINC429, RS485 and other bus protocols, to 100M / 1000M or even 10GbE. The Ethernet implementation in the traditional airborne or computer system is based on the TCP / IP protocol stack implemented by the CPU. Its disadvantage lies in the complexity of the TCP / IP protocol stack and the scheduling algorithm of the CPU. The delay of the Ethernet message depends on the CPU. Scheduling, so the delay jitter is large, and the audio processing cycle defined by ARINC628P3 is 4ms, and the audio playback effect is sensitive to the processing delay. If the processing delay fluctuates too much, the sound playback will appear stuttering or noise, so if you use a tra...

Claims

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Application Information

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IPC IPC(8): H04L29/06
CPCH04L65/70
Inventor 何万昊
Owner CETC AVIONICS
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