Robust time and frequency synchronization for OFDM systems with maximum spectrum flexibility

C. Bluemm, C. Heller, R. Weigel
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Abstract

Each Orthogonal Frequency Division Multiplexing (OFDM) system comprises a number of spectrally distributed subcarriers which are either allocated with data or left unused. This choice can be made specifically for each subcarrier and completely independently of each other. Thus, extensive spectrum shaping is possible, which makes OFDM ideal for Cognitive Radio (CR) and related technologies. However, in classical OFDM systems, the subcarrier flexibility is applicable anywhere but not to the synchronization preamble. This paper proposes a novel time and frequency synchronization technique on basis of the Hiperlan/2 preamble which was made spectrally fully flexible. Its robustness and accuracy was proven with simulations and measurements on an FPGA-based Software Defined Radio (SDR) implementation. The synchronization can compete with popular unflexible algorithms under AWGN and Rayleigh channels, while the impact of any subcarrier reallocation is negligible.
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具有最大频谱灵活性的OFDM系统的鲁棒时频同步
每个正交频分复用(OFDM)系统包括许多频谱分布的子载波,这些子载波要么被分配数据,要么被闲置。这种选择可以专门针对每个子载波,并且彼此完全独立。因此,广泛的频谱整形是可能的,这使得OFDM成为认知无线电(CR)和相关技术的理想选择。然而,在经典的OFDM系统中,子载波灵活性适用于任何地方,但不适用于同步前导。本文提出了一种基于Hiperlan/2前导的新型时频同步技术,该技术具有频谱完全柔性。在基于fpga的软件定义无线电(SDR)实现上进行了仿真和测量,验证了其鲁棒性和准确性。在AWGN和瑞利信道下,该同步可以与常用的非灵活算法竞争,而任何子载波重新分配的影响可以忽略不计。
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