一种基于低复杂度ipts的扩展分基IFFT,用于OFDM系统中PAPR的降低

Pornpawit Boonsrimuang, Panya Jirajaracheep, P. Reangsuntea, P. Boonsrimuang, Hideo Kobayashi
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引用次数: 0

摘要

提出了一种计算复杂度较低的部分传输序列(PTS)方法,即分解PTS子块方法,该方法对n点基数2逆快速傅里叶变换(IFFT)的中期信号进行基2逆快速傅里叶变换(IFFT),并在频域(DIF)进行抽取。该方法(DIF-IFFT)可以相对降低计算复杂度,同时在使用相同权重因子的情况下保持与其他PTS技术相似的较好的PAPR性能。为了提高PTS方法的计算复杂度,提出了可减少计算复杂度的扩展分裂基反快速傅里叶变换(SRIFFT)。但是,PAPR的降低性能与基数-2方法相同。在本文中,我们提出了一种新的加权因子技术与DIF-PTS子块技术相结合,称为改进PTS (I-PTS),它可以在不增加侧信息的情况下提高PAPR性能和计算复杂度。本文给出了各种计算机仿真结果来验证所提方法的有效性。
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A low complexity IPTS-based Extended Split-Radix IFFT for PAPR reduction in OFDM systems
The Partial Transmit Sequence (PTS) method with low computation complexity, called decomposition PTS sub-blocking was proposed which employs the radix-2 inverse fast Fourier transform (IFFT) for the signals at the middle stages of an N-point radix-2 IFFT and decimation in frequency (DIF) domain. This method (DIF-IFFT) can reduce the computation complexity relatively with keeping the better PAPR performance similar to other PTS techniques with using the same weighting factor. To improve computation complexity for the PTS method, the Extended Split-Radix inverse fast Fourier transform (SRIFFT) which can reduces the number of computation complexity was proposed. However, the PAPR reduction performance is the same as that for the radix-2 method. In this paper, we propose a new weighting factor technique in conjunction with DIF-PTS sub-blocking based on Extended Split-Radix IFFT technique called Improve PTS (I-PTS) which can improve both the PAPR performance and computation complexity without any increasing of side information. This paper presents the various computer simulation results to verify the effectiveness of proposed method.
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