PAPR REDUCTION IN MIMO-OFDM SYSTEM USING LDPC CODES release_rgzhzvnvbfg5jbu6hblawbps4i

Abstract

Peak-to-average power ratio (PAPR) is a major drawback in most multi-carrier communication techniques such as orthogonal frequency division multiplex system (OFDM). OFDM consists of lots of independent modulated subcarriers, as a result the amplitude of such a signal can have very large values. These large peaks increase the amount of intermodulation distortion resulting in an increase in the error rate. The PAPR of an OFDM signal can be reduced in several ways: selective mapping, Golay sequences, cyclic coding, clipping and filtering, and multiple signal representation techniques. The authors have improved the performance of the OFDM system by using low-density parity-check (LDPC) codes as an alternative to turbo coding in mitigating the PAPR problem which has been used in the pervious works of the authors. The authors present the design for the proposed (LDPC) code technique that achieves good error correction performance and is used to lower the PAPR in a multiple-input multiple-output OFDM system. By using QCLDPC codes the PAPR can be further reduced in OFDM system compared to that of LDPC codes. The simulation results show that 6-60% reduction in PAPR over current values in the literature can be achieved depending on the system type.
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