Satellite-borne ACARS signal receiving and processing method

A technology of signal receiving and processing methods, applied in radio transmission systems, electrical components, transmission systems, etc., can solve the problems of inability to monitor remote ocean areas, large impact of ground-based equipment, limited coverage area, etc., to achieve both processing sensitivity Requirements, Reduced Devices, Effects of Reduced Devices and Modules

Active Publication Date: 2018-04-24
10TH RES INST OF CETC
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

These ACARS receiving systems, which are usually built on the ground or on aircraft, have great limitations, mainly reflected in several days: first, the area covered by each ground system is limited, and it can only monitor a limited area and a limited number of aircraft; The ground-based equipment is g

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  • Satellite-borne ACARS signal receiving and processing method
  • Satellite-borne ACARS signal receiving and processing method
  • Satellite-borne ACARS signal receiving and processing method

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Embodiment Construction

[0018] refer to figure 1 , figure 2 . According to the present invention, in the satellite payload device, the ACARS signal receiving and processing device is composed of a receiving antenna, a receiving channel, and an acquisition and processing module. The antenna mainly completes the reception of ACARS signals. The receiving antenna needs to meet the installation requirements on the satellite, and also needs to meet the requirements of receiving frequency band, receiving gain, receiving azimuth coverage, and polarization. The designed antenna must be able to receive ACARS signals normally. The receiving channel mainly completes the filtering and amplifying functions of the ACARS signal, and the filtering bandwidth and amplification gain need to meet the requirements of ACARS signal receiving frequency range, dynamic range, and noise figure index. The acquisition and processing module mainly completes signal acquisition, preprocessing, signal detection, demodulation, int...

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Abstract

The invention discloses a satellite-borne ACARS signal receiving and processing method, which aims to provide a processing method which is high in detection probability, high in adaptability and low in information transmission bandwidth requirement. The satellite-borne ACARS signal receiving and processing method is realized by the following technical scheme: in satellite load equipment, an antenna receives an ACARS signal from the space radiation, and filters and amplifies the received signal through a receiving channel; an acquisition and processing module performs AD sampling on an analog signal outputted by the receiving channel; a Doppler positive hybrid frequency, a Doppler zero frequency and a Doppler negative hybrid frequency are formed in an FPGA in parallel, digital down-conversion, filtering preprocessing, demodulation and duplication removal, and checking and screening are performed on three ways of down-conversion signals, and a correlation detection algorithm is adopted for carrying out detection, secondary demodulation and differential removal processing on the ACARS signal; and finally, a final demodulation result is formed, and ACARS signal interpretation, signal duplication removal and type screening are performed on the demodulation result through a signal processor, and a screened interpretation result and a demodulation result are transmitted to the ground.

Description

technical field [0001] The invention relates to a technology for receiving, collecting, detecting, demodulating, interpreting, screening and deduplicating ACARS signals of an aircraft communication addressing and reporting system by a receiving processing load assembled on an artificial satellite. Background technique [0002] Aircraft Communications Addressing and Reporting System (ACARS) is a digital data link system that transmits short messages (messages) between aircraft and ground stations via radio or satellite. The aircraft regularly reports the position and status information of the aircraft to the ground data center through the ACARS equipment. In order to reduce crew workload and improve data integrity, airlines introduced the ACARS system in the late 1980s. ACARS realizes the automatic transmission and exchange of data and information between air and ground through the on-board very high frequency communication system (VHF). The system can establish a connectio...

Claims

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Application Information

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IPC IPC(8): H04B7/185H04B1/16
CPCH04B1/16H04B7/18506H04B7/18517
Inventor 冯学良
Owner 10TH RES INST OF CETC
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