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PTS-PAPR Reduction Technique for 5G Advanced Waveforms Using BFO Algorithm

Арун Кумар, Manoj Gupta, Dac‐Nhuong Le, Ayman A. Aly

2021Intelligent Automation & Soft Computing22 citationsDOIOpen Access PDF

Abstract

Non-orthogonal multiple access (NOMA) will play an imperative part in an advanced 5G radio arrangement, owing to its numerous benefits such as improved spectrum adeptness, fast data rate, truncated spectrum leakage, and, so on. So far, NOMA undergoes from peak to average power ratio (PAPR) problem, which shrinks the throughput of the scheme. In this article, we propose a hybrid method, centered on the combination of advanced Partial transmission sequence (PTS), Selective mapping (SLM), and bacteria foraging optimization (BFO), known as PTS-BFO and SLM-PTS. PTS and SLM are utilized at the sender side and divide the NOMA into several sub-blocks. An optimal phase factor is achieved by the BFA and combined with the NOMA sub-block, where a low peak power value is obtained. Further, we estimate the bit error rate (BER) and PAPR of BFA in the SLM and PTS technique. The simulation outputs reveal that the PTS-BFO outperforms the traditional peak power minimization approaches and moderates the complexity of the system. It is concluded that the proposed algorithm is not explored for the NOMA waveform.

Topics & Concepts

Computer scienceNomaWaveformAlgorithmTransmission (telecommunications)Reduction (mathematics)MinificationPower (physics)Bit error rateCommunication sourceBlock (permutation group theory)ThroughputReal-time computingTelecommunicationsWirelessMathematicsTelecommunications linkRadarQuantum mechanicsDecoding methodsProgramming languageGeometryPhysicsPAPR reduction in OFDMAdvanced Wireless Communication TechnologiesWireless Communication Networks Research