FPGA Implementable Frame Synchronization Algorithm for Burst Mode GMSK

... IEEE Conference on Communications and Network Security. IEEE Conference on Communications and Network Security Pub Date : 2017-02-15 DOI:10.4236/CN.2017.91005

O. Gamgam, E. Atilgan

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引用次数: 1

Abstract

In time division multiple access (TDMA) communication systems, correctly estimating the synchronization parameters is very important for reliable data transfer. The algorithms used for frequency/phase and symbol timing estimates are generally accepted as knowing the start of signal (SoS) parameter. Therefore, within these parameters, the SoS parameter is of particularly great importance. In this study, a reduced version of the SoS estimation algorithm introduced by Hosseini and Perrins is presented to estimate SoS for Gaussian Minimum Shift Keying (GMSK) modulated signals in burst format over additive white Gaussian noise (AWGN) channels. The reduced algorithm can be implemented on FPGA by using half the number of complex multipliers that would be required by the double correlation method and is robust to carrier frequency/phase errors. Simulations performed under 0.1 normalized frequency offset conditions show that the proposed algorithm has a probability of false lock which is less than 7×10-2, even at 0 dB SNR level.

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突发模式GMSK的FPGA实现帧同步算法

在时分多址(TDMA)通信系统中，正确估计同步参数对数据的可靠传输至关重要。用于频率/相位和符号时序估计的算法通常被接受为知道信号的起始(SoS)参数。因此，在这些参数中，SoS参数尤为重要。在本研究中，提出了Hosseini和Perrins引入的SoS估计算法的简化版本，用于在加性高斯白噪声(AWGN)信道上估计突发格式的高斯最小移位键控(GMSK)调制信号的SoS。简化后的算法可以在FPGA上实现，使用的复乘法器数量是双相关方法所需复乘法器数量的一半，并且对载波频率/相位误差具有鲁棒性。在0.1归一化频偏条件下进行的仿真表明，即使在0 dB信噪比水平下，该算法的误锁概率小于7×10-2。

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... IEEE Conference on Communications and Network Security. IEEE Conference on Communications and Network Security

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