Data throughput on MILSATCOM channels using military standard 188-184 and 188-181B

IEEE Military Communications Conference, 2003. MILCOM 2003. Pub Date : 2003-10-13 DOI:10.1109/MILCOM.2003.1290152

J. Norris

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Abstract

The physical layer continuous phase modulated (CPM) waveforms that are defined in Mil-Std-188-181B can now be used with network layer protocols such as those defined in Mil-Std-188-184 and the UHF SATCOM high performance waveform (HPW). These CPM waveforms provide higher throughput than the standard, ubiquitous 16 kbps FSK waveform and this paper documents the performance of the combination of the two military standards as used in a tactical SATCOM radio (AN/PRC-117F). In addition, the uncoded CPM waveforms Mil-Std-188-181B also provide optional interleaving and Reed-Solomon outer codes which can be added to considerably enhance BER performance. This paper also documents the bit error rate performance of all of the Reed-Solomon coded waveforms in the tactical SATCOM radio. Unfortunately the improvement in bit error rate does not correspond to an equivalent improvement in data throughput. For example, since the Mil-Std-188-184 network layer provides an external "keyline" to a radio, the radio is required to wait until an interleaver is completely filled before transmitting an encoded set of data. This holdoff time also results in an equivalent wait time at the receiver while the entire codeword and interleaver block is demodulated and decoded at the receiver. The 184-capable receiver must wait for this end-to-end hold off time before it can respond with an ACK/NACK to the transmitter. This round-trip holdoff time consequently reduces the ultimate throughput of the message. This paper provides an analysis of this weakness in the strict layering (network/physical) approach to data throughput and provides recommendations for modifications to the Mil-Std-188-184 and HPW waveforms.

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使用军用标准188-184和188-181B的MILSATCOM信道的数据吞吐量

Mil-Std-188-181B中定义的物理层连续相位调制(CPM)波形现在可以与Mil-Std-188-184中定义的网络层协议和UHF SATCOM高性能波形(HPW)一起使用。这些CPM波形提供比标准更高的吞吐量，无处不在的16 kbps FSK波形，本文记录了在战术卫星通信无线电(AN/PRC-117F)中使用的两种军事标准的组合性能。此外，未编码的CPM波形Mil-Std-188-181B还提供可选的交错和里德-所罗门外码，可以添加它们以显着提高误码率性能。本文还记录了战术卫星通信无线电中所有里德-所罗门编码波形的误码率性能。不幸的是，误码率的改善并不对应于数据吞吐量的等效改善。例如，由于Mil-Std-188-184网络层提供了对讲机的外部“键盘”，因此对讲机需要等待，直到交织器完全填充后才能传输一组编码的数据。当整个码字和交织器块在接收端解调和解码时，此保持时间也会在接收端产生等效的等待时间。支持184的接收端必须等待端到端的延迟时间，然后才能向发送端响应ACK/NACK。这种往返保持时间因此减少了消息的最终吞吐量。本文对数据吞吐量的严格分层(网络/物理)方法中的这一弱点进行了分析，并提供了对Mil-Std-188-184和HPW波形的修改建议。

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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IEEE Military Communications Conference, 2003. MILCOM 2003.

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