Integrated navigation and surveillance capability within L-DACS1

B. Haindl, C. Rihacek, M. Sajatovic
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Abstract

New ATM concepts developed in the course of Single European Sky ATM Research (SESAR) Program in Europe and Next Generation Air Transportation System (NextGen) in the USA rely upon powerful mobile aeronautical communications, and at the same time they require reliable and robust solutions for navigation and surveillance. Recent efforts focus on establishing communications services within the navigation bands, in particular in the lower part of the aeronautical L-band (960–1164 MHz). New technologies operating in the same frequency range could use synergies that could not be exploited with “separated” technologies used so far. Following the recommendations of the Future Communications Study, two options for a new L-band Digital Aeronautical Communication System (L-DACS) have been specified: L-DACS1 based on Orthogonal Frequency Division Multiplexing (OFDM) and L-DACS2 based on Time Division Multiple Access (TDMA). Both systems aim at providing high-performance, high-capacity aeronautical communications being deployed in the lower part of the aeronautical L-band (960–1164 MHz). The initial specification of L-DACS1 Air-Ground (A/G) data link [1] is based on the Broadband Aeronautical Multi-carrier Communications (B-AMC) technology that has been complemented by some desirable features of other broadband technologies, primarily TIA-902 (P34) and IEEE 802.16e (WiMAX). Any new communication system in the L-band has to co-exist with the existing L-band navigation and surveillance systems. Moreover, the performance of such a new system is limited by the interference received from existing systems. This paper discusses the motivation and the basic principles of integrating navigation (NAV) and surveillance (SUR) functions within the L-DACS1 communications (COM) system. The detailed concepts for these L-DACS1 functional enhancements are currently being developed in the course of an Austrian research project, called CoLB -Consolidated L-DACS1 based on B-AMC. The proposed concept aims at optionally providing configurable navigation and surveillance services to airspace users along with mandatory communications services. Additional services would be provided in a non-mandatory way, without introducing potentially dangerous coupling of CNS modes within the communications system itself.
L-DACS1的综合导航和监视能力
在欧洲单一天空空中管制研究(SESAR)计划和美国下一代空中运输系统(NextGen)过程中开发的新空中管制概念依赖于强大的移动航空通信,同时它们需要可靠和强大的导航和监视解决方案。最近的努力集中于在导航波段内建立通信业务,特别是在航空l波段的较低部分(960-1164兆赫)。在同一频率范围内运行的新技术可以利用迄今为止使用的“分离”技术无法利用的协同增效作用。根据未来通信研究的建议,已经为新的l波段数字航空通信系统(L-DACS)指定了两个选项:基于正交频分复用(OFDM)的L-DACS1和基于时分多址(TDMA)的L-DACS2。这两个系统旨在提供高性能、高容量的航空通信,部署在航空l波段(960-1164 MHz)的较低频段。L-DACS1空地(A/G)数据链路[1]的初始规范是基于宽带航空多载波通信(B-AMC)技术,该技术已经补充了其他宽带技术的一些理想特性,主要是TIA-902 (P34)和IEEE 802.16e (WiMAX)。任何新的l波段通信系统都必须与现有的l波段导航和监视系统共存。此外,这种新系统的性能受到来自现有系统的干扰的限制。本文讨论了L-DACS1通信(COM)系统中导航(NAV)和监视(SUR)功能集成的动机和基本原理。这些L-DACS1功能增强的详细概念目前正在奥地利的一个研究项目中开发,该项目称为基于B-AMC的CoLB -Consolidated L-DACS1。拟议的概念旨在为空域用户提供可选择的可配置导航和监视服务以及强制性通信服务。额外的服务将以非强制性的方式提供,而不会在通信系统本身引入CNS模式的潜在危险耦合。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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