Saly S. Hassaneen scite author profile

One of the basic issues in orthogonal frequency-division multiplexing (OFDM) frameworks is the peak-to-average power ratio (PAPR). There are several PAPR reduction methods available. The partial transmit sequence (PTS) technique is considered one of the superior techniques for overcoming this issue.In this study, an efficient VHSIC hardware description language VHDL implementation of the PTS design utilising roundabout circular shifting CS was planned. The proposed structured method was designed as a real-time prototype circuit over a field programmable gate array (FPGA) utilising the VHDL language. The implementation results of the prototype circuit in terms of the resources used in the FPGA using the Xilinx synthesis tool on the Virtex-5 board for SISO, 2 Â 2 MIMO and 4 Â 4 MIMO models for N-IFFT 64 and 256 points are presented. The structured framework effectively combined to be a compact framework with low intricacy and high speed. Testing of the implemented circuit verified its functionality. A comparison of our proposed CS-PTS scheme with previously used PTS schemes, such as the subblock scheme, showed that our proposed method is superior in terms of hardware complexity reduction.

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Intrinsic Interference Reduction: A Channel Estimation Approach for FBMC-OQAM Systems

Elghetany

Hassaneen

Shaalan

et al. 2022

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Saly S. Hassaneen

Modified PTS with circular shifting for PAPR reduction in MIMO OFDM systems

Reducing the peak to average power ratio in MIMO OFDM systems

VHDL implementation of circular shifting‐partial transmit sequence in MIMO OFDM systems

Intrinsic Interference Reduction: A Channel Estimation Approach for FBMC-OQAM Systems

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