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On the Performance of Blanking Nonlinearity in Real-Valued OFDM-Based PLC

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To mitigate the impulsive noise in orthogonal frequency-division multiplexing (OFDM)-based power-line communications (PLC), a blanker can be employed at the receiver. In the literature, the performance of the blanker has… Click to show full abstract

To mitigate the impulsive noise in orthogonal frequency-division multiplexing (OFDM)-based power-line communications (PLC), a blanker can be employed at the receiver. In the literature, the performance of the blanker has been discussed and analyzed thoroughly. However, the analysis was limited only to passband OFDM PLC systems with complex-valued baseband representation. This paper aims to derive a mathematical expression of the output signal-to-noise ratio (SNR) of a blanker in baseband OFDM-based PLC, which are real-valued and used in some PLC standards. We also analyze the performance of separate real/imaginary blanking, instead of the traditional amplitude blanking, in passband OFDM-based PLC systems. It will be shown that the performance of amplitude blanking is similar to separate real/imaginary blanking in high signal-to-impulsive-noise ratio (SINR) values. However, when the SINR is low, the performance of amplitude blanking is better than the separate real/imaginary blanking. The difference is about 1 dB for ${SINR = -10}$ dB and 1.5 dB for ${SINR = -30}$ dB when signal-to-background-noise ratio, ${SBNR=25}$ dB and impulsive noise probability ${p=0.01}$ .

Keywords: tex math; ofdm based; performance; inline formula

Journal Title: IEEE Transactions on Smart Grid
Year Published: 2018

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