Carrier frequency allocation in FDMA military SATCOMs

2001 MILCOM Proceedings Communications for Network-Centric Operations: Creating the Information Force (Cat. No.01CH37277) Pub Date : 2001-10-28 DOI:10.1109/MILCOM.2001.985759

L. Westbrook, T. Calladene, I. Berry, N. Briscombe

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引用次数: 3

Abstract

Tactical military SATCOMs require a sophisticated balance between efficiency and resilience. Ideally, this balance needs to be flexible and dynamic, so as to adapt as demands (and threats) ebb and flow. Automation is seen as the key to providing the flexibility to migrate SATCOM band plans between rapidly evolving scenarios. Efficiency and revenue maximisation are often the key drivers in commercial satellite systems, nevertheless carrier frequency allocation techniques developed for civilian systems can be usefully employed in military systems, provided optimisation is extended to address resilience and support flexibility. Key factors in optimising frequency plans in multi-satellite, multi-beam, multi-terminal, multi-modulation systems are frequency re-use, compliance with satellite and ground station regulation and co-ordination agreements and, critically, the control (or mitigation) of intermodulation products. Significant differences between military and civilian systems are the likelihood of electronic attack and the widespread use of spread-spectrum (particularly frequency hopped) systems, which typically trade spectral efficiency for increased robustness and reduced probability of detection. We describe carrier frequency assignment approaches for SATCOM systems. Techniques studied include the use of meta-heuristic algorithms, such as genetic algorithms and tabu search, and quasi intermodulation-free schemes based on Golomb rulers, as well as conventional heuristic approaches such as variants of the insertion/deletion method.

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军用卫星通信FDMA中的载波频率分配

战术军事卫星通信需要在效率和弹性之间取得复杂的平衡。理想情况下，这种平衡需要灵活和动态，以便适应需求(和威胁)的起起落落。自动化被视为在快速发展的场景之间提供灵活迁移SATCOM频段计划的关键。效率和收益最大化通常是商业卫星系统的关键驱动因素，然而，为民用系统开发的载波频率分配技术可以有效地应用于军事系统，只要优化扩展到解决弹性和支持灵活性。优化多卫星、多波束、多终端、多调制系统频率计划的关键因素是频率重复使用、遵守卫星和地面站监管和协调协议，以及至关重要的是对互调制产品的控制(或缓解)。军用和民用系统之间的显著差异是电子攻击的可能性和扩频(特别是跳频)系统的广泛使用，扩频系统通常以频谱效率为代价，提高鲁棒性，降低检测概率。我们描述了卫星通信系统的载波频率分配方法。研究的技术包括使用元启发式算法，如遗传算法和禁忌搜索，基于Golomb标尺的准互调无方案，以及传统的启发式方法，如插入/删除方法的变体。

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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2001 MILCOM Proceedings Communications for Network-Centric Operations: Creating the Information Force (Cat. No.01CH37277)

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