PAPR Reduction and Encryption Based On Hybrid Optimized PTS and Chaotic-DFT Sequences in OFDM System
Mrinmoy Sarkar1, Asok Kumar2, Bansibadan Maji3

1Mrinmoy Sarkar, Electronics and Communication Engineering Bankura Unnayani Institute of Engineering West Bengal, India.
2Asok Kumar, Dean of Students Welfare Vidyasagar University Midnapur, West Bengal, India.
3Prof Bansibadan Maji, Professor ECE Department NIT Durgapur, West Bengal, India.
Manuscript received on September 14, 2019. | Revised Manuscript received on October 05, 2019. | Manuscript published on October 30, 2019. | PP: 684-691 | Volume-9 Issue-1, October 2019 | Retrieval Number: F9036088619/2019©BEIESP | DOI: 10.35940/ijeat.F9036.109119
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Abstract: In high-speed wireless applications, because of the high-speed compatibility of the OFDM, it is a significant signal processing approach. In general, an efficient spectral multi-carrier modulation strategy is named OFDM, which gets impact via the issues of high PAPR. Because of the limited BW availability, the demand for high-speed applications is increasing. Due to the high data requirement, the various subcarriers are increased in OFDM, hence it made the difficult with PAPR (peak-to-average power ratio). To achieve better results by reducing the PAPR is the foremost problem on OFDM. In this paper, a hybrid optimized PTS is used to decrease the PAPR and the data will be encrypted by the DFT based chaotic sequences. A new Hybrid Whale Optimization and Moth Flame Optimization (HWOMFO) is introduced in this paper. It will generate a weighting factor for the PTS. PTS is the foremost strategy in OFDM for reducing the PAPR with low distortion. The minimum performance on computational complexity and PAPR achieved by this paper. The new combination of optimization approaches provides efficient best combination of phase rotational factors. The new hybrid optimization gives fast convergence quality and low complex and also this combination provides better than others. The proposed scheme is executed in MATLAB simulation and performance will be evaluated using parameters such as BER regards to SNR, complementary cumulative distribution function (CCDF) of PAPR and the outputs are associated depends on computation time. However, the experimental results show that compared with existing approaches, our proposed strategy gives better PAPR reduction with respect to SNR.
Keywords: Wireless application, Partial Transmit Sequence (PTS), Chaotic sequence, Orthogonal frequency division multiplexing (OFDM) and Signal to noise ratio (SNR).