Alternatives for Supporting Multiple Cryptographically-Isolated User Groups in Frequency-Hopping Systems

MILCOM 2013 - 2013 IEEE Military Communications Conference Pub Date : 2013-11-01 DOI:10.1109/MILCOM.2013.176

F. J. Block, D. Qiu, IV ThomasC.Royster

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Abstract

Most traditional coded and interleaved frequency-hop systems either avoid multiple-access interference through the use of orthogonal hopping patterns or tolerate the MAI that results from non-orthogonal hopping patterns. While the former method typically has better performance, all the users' hopping patterns must be coordinated to maintain orthogonality. Because the processing gain of frequency-hop systems relies on the secrecy of the hopping pattern, having a potentially large number of users with knowledge of coordinated hopping patterns may be undesirable. Rather, multiple smaller groups that are cryptographically isolated from each other are preferred. In this paper, we discuss alternatives for supporting multiple such cryptographically-isolated user groups in frequency-hopping spread spectrum systems. Tradeoffs among interference rejection, data rate, and number of supportable users are considered for a variety of channel access schemes and hopping pattern designs. In addition, the impact of improved receiver capabilities, such as multiuser detection, to the trade space is investigated.

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在跳频系统中支持多个加密隔离用户组的备选方案

大多数传统的编码和交错跳频系统要么通过使用正交跳频模式来避免多址干扰，要么容忍由非正交跳频模式产生的多址干扰。虽然前一种方法通常具有更好的性能，但必须协调所有用户的跳跃模式以保持正交性。由于跳频系统的处理增益依赖于跳频模式的保密性，因此可能不希望拥有大量了解协调跳频模式的用户。更确切地说，最好是相互隔离的多个较小的组。在本文中，我们讨论了在跳频扩频系统中支持多个这样的加密隔离用户组的替代方案。在各种信道接入方案和跳频模式设计中，考虑了干扰抑制、数据速率和支持用户数量之间的权衡。此外，还研究了改进的接收机能力(如多用户检测)对交易空间的影响。

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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MILCOM 2013 - 2013 IEEE Military Communications Conference

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