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引用次数: 18
摘要
本文重点研究了利用创新的传输和解码技术来增加1090mhz SSR信道容量。许多空中交通管制系统使用1090mhz信道:SSR下行链路(机载应答器),ADS-B消息,TIS-B, fi -b。我们把注意力集中在MLAT (multilatation)系统上,它有助于定位和识别配备应答器的目标(飞机和车辆)。如今,多方向接收站的天线都是全向的,考虑到飞机的交通情况,并将监视扩展到配合的车辆,接收叠加信号的可能性越来越大,特别是在高交通密度的机场。在本文中,我们介绍了国际专利中提出的问题缓解技术,以及和中提出的解码技术。首先分析了信道容量的提高,然后研究了移频和分离信号的检测和TOA估计,最后讨论了EUROCAE要求的符合性。
1090 MHz channel capacity improvement in the Air traffic control context
This paper is focused on the 1090 MHz SSR channel capacity increase by innovative transmission and decoding techniques. A lot of Air traffic control systems use the 1090 MHz channel: SSR downlink (on-board transponders), ADS-B messages, TIS-B, FIS-B. We focus the attention on the MLAT (multilateration) system, useful to localize and identify transponder-equipped targets (aircraft and vehicles). Today multilateration receiver stations have omni-directional antennae, so considering the aircrafts traffic and including the extension of surveillance to cooperating vehicles, the reception of super-imposed signals is more and more probable especially in high traffic density airports. In this paper we show the problem mitigation introducing a technique proposed in the international patent , and the decoding techniques proposed in and. We analyze the channel capacity improvement, then exploit the detection and the TOA estimation of the frequency-shifted and separated signals, and finally the EUROCAE requirements compliance.
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