Abstract
Several high-speed wireless systems use Orthogonal Frequency Division Multiplexing (OFDM) due to its advantages. 5G has adopted OFDM and is expected to be considered beyond 5G (B5G). Meanwhile, OFDM has a high Peak-to-Average Power Ratio (PAPR) problem. Hybridization between two PAPR reduction techniques gains the two techniques’ advantages. Hybrid precoding-companding techniques are attractive as they require small computational complexity to achieve high PAPR reduction gain. Many precoding-companding techniques were introduced to increasing the PAPR reduction gain. However, reducing Bit Error Rate (BER) and out-of-band (OOB) radiation are more significant than increasing PAPR reduction gain. This paper proposes a new precoding-companding technique to better reduce the BER and OOB radiation than previous precoding-companding techniques. Results showed that the proposed technique outperforms all previous precoding-companding techniques in BER enhancement and OOB radiation reduction. The proposed technique reduces the Error Vector Magnitude (EVM) by 15 dB compared with 10 dB for the best previous technique. Additionally, the proposed technique increases high power amplifier efficiency (HPA) by 11.4%, while the best previous technique increased HPA efficiency by 9.8%. Moreover, our proposal achieves PAPR reduction gain better than the most known powerful PAPR reduction technique with a 99% reduction in required computational complexity.
Highlights
This section discusses the performance results of the proposed SRC-Log and the comparison results with the ten state of the art precoding-companding techniques (i.e., DHT-A [26], SRC-μ [37], DCT-μ [33], Discrete Fourier Transform hybridized with μ-law (DFT-μ) [28], DST-μ [32], Discrete Hartley Transform hybridized technique with μ-law (DHT-μ) [24], WHT-μ [22], with exponential (exp) companding (WHT-exp) [23], DST-A [31], and Zadoff–Chu Transform hybridized with μ-law (ZCT-μ) [34]) in terms of Peak-to-Average Power Ratio (PAPR) reduction gain, Bit Error Rate (BER), OOB
The PAPR reduction performance of SRC-Log is compared with Partial Transmit Sequence (PTS)
We propose a precodingcompanding technique to reduce the BER and OOB better than previous ones, as this is the goal of PAPR reduction
Summary
Frequency Division Multiplexing (OFDM) and expected to be used in Beyond 5G (B5G). OFDM has a high Peak-to-Average Power Ratio (PAPR) problem. This problem leads to excessive distortion in the OFDM signal due to the nonlinear High Power Amplifier (HPA) in the transmitter chain. OFDM is the most popular multicarrier modulation technique. It is expected that B5G will consider OFDM. OFDM reduces the computational complexity of the equalization process than the adaptive equalizer. It converts the multipath channel into a flat channel over each subcarrier. In the OFDM transmitter, the incoming modulated symbols (e.g., QPSK or M-QAM) are grouped into NT parallel symbols and go through the NT -point IFFT. Equation (1) represents the time domain OFDM symbol [14]; 2πnk j
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