Fast and robust timing synchronization for IEEE 802.16 MSs in mixed mode (16e, 16m)

2010 International Conference on Information and Communication Technology Convergence (ICTC) Pub Date : 2010-12-23 DOI:10.1109/ICTC.2010.5674266

Perumal Ramesh Babu, Young-Jo Bang, Youn-Ok Park

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Abstract

When the ABS supports mixed mode that is it supports both 16e MSs and 16m AMSs, if we have a Software Defined Radio which supports both 16e and 16m modes, then we can take advantage of the extra preamble available from the other mode to do either fast or robust coarse timing synchronization. For 16e mode, if the signal is weak and cannot synchronize on 16e preamble, the MS can first synchronize on 16m PA-Preamble and then offset back by a known integer number of 16e symbols to reach 16e preamble location. Usually for a given performance or bit error rate, the 16m PA-Preamble can work at 5dB SNR lower than the 16e preamble. Similarly when working in 16m mode, if the AMS wants to do fast synchronization and the signal quality is good, it can synchronize on 16e preamble first (which is available every frame as compared to 16m PA-Preamble which is only available every super frame) and then offset forward to 16m A-Preamble (PA-Preamble or SA-Preamble). This way we can make choices based on SNR level and time required to synchronize.

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IEEE 802.16 MSs在混合模式(16e, 16m)下的快速鲁棒定时同步

当ABS支持混合模式时，即它同时支持16e ms和16m ms，如果我们有一个同时支持16e和16m模式的软件定义无线电，那么我们可以利用其他模式提供的额外前导来进行快速或鲁棒的粗定时同步。对于16e模式，如果信号很弱，不能在16e preamble上同步，则MS可以首先在16m PA-Preamble上同步，然后通过已知的16e符号整数偏移回16e preamble位置。通常对于给定的性能或误码率，16m PA-Preamble可以在比16e preamble低5dB的信噪比下工作。同样，当工作在16m模式时，如果AMS想要做快速同步并且信号质量很好，它可以首先同步16e preamble(每帧都可用，而16m PA-Preamble只在每个超级帧可用)，然后向前偏移到16m A-Preamble (PA-Preamble或SA-Preamble)。这样我们就可以根据信噪比水平和同步所需的时间做出选择。

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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2010 International Conference on Information and Communication Technology Convergence (ICTC)

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