Reducing Peak-to-Average Power Ratio of a Turbo Coded OFDM

Spyridon K Chronopoulos, V. Christofilakis, Giorgos Tatsis, P. Kostarakis
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引用次数: 13

Abstract

Peak to Average Power Ratio (PAPR) is defined as the instantaneous power (maximum value) to the average power ratio. PAPR is considered to be a major problem in OFDM systems. This problem can cause radical unexpected behavior of the signal fluctuation. This fluctuation is constituted by a large number of power states. The enormous number of these states leads to an additional complexity of ADCs and DACs. This research addresses the previous problem in OFDM systems utilizing Turbo Codes. μLaCP technique is employed for the purpose of decreasing PAPR. Moreover, our OFDM system was simulated in the presence of an AWGN channel with four types of codes (without the presence of ADCs and DACs). These were constituted of PCCC (typical and new), SCCC, and Convolutional Codes. Our Turbo Coded OFDM exhibited unchanged BER performance before and after the use of μLaCP technique. This was accomplished by modifying our previous PAPR reduction technique without sacrificing greatly its attributes.
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降低Turbo编码OFDM的峰均功率比
峰值平均功率比(PAPR)定义为瞬时功率(最大值)与平均功率的比值。PAPR被认为是OFDM系统中的一个主要问题。这个问题会引起信号波动的根本的不可预料的行为。这种波动是由大量的功率状态构成的。这些状态的巨大数量导致adc和dac的额外复杂性。本研究解决了利用Turbo码的OFDM系统中存在的问题。μLaCP技术用于降低PAPR。此外,我们的OFDM系统在具有四种类型代码的AWGN信道存在的情况下进行了模拟(不存在adc和dac)。它们由PCCC(典型和新型)、SCCC和卷积码组成。我们的Turbo编码OFDM在使用μLaCP技术前后具有不变的误码率性能。这是通过修改我们以前的PAPR减少技术而不牺牲其属性来实现的。
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