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N-continuous orthogonal frequency division multiplexing(NC-OFDM) is an outstanding method to suppress sidelobe for baseband OFDM signals in future 5G wireless communications.However,the precoder of NCOFDM usually causes severe interference and high complexity.To alleviate these problems,this paper proposes an improved time-domain N-continuous OFDM(TD-NC-OFDM) by optimizing the smooth signal,which is the linear combination of rectangularly pulsed OFDM basis signals truncated by a smooth window.Furthermore,we show that the proposed scheme is with lower transceiver complexity and notable performance gain in signal-tointerference-plus-noise ratio(SINR).Lastly,simulation results show that the proposed low-interference TD-NC-OFDM can achieve similar sidelobe suppression performance,with negligible bit-error rate(BER) degradation,compared to conventional NC-OFDM.
N-continuous orthogonal frequency division multiplexing (NC-OFDM) is an outstanding method to suppress sidelobe for baseband OFDM signals in the future 5G wireless communications. However, the precoder of NCOFDM usually causes severe interference and high complexity. Therefore, these problems, this paper proposes an improved time-domain N-continuous OFDM (TD-NC-OFDM) by optimizing the smooth signal, which is the linear combination of rectangularly pulsed OFDM basis signals truncated by a smooth window. Therrthermore, we show that the proposed scheme is with lower transceiver complexity and notable performance gain in signal-to-interference-plus-noise ratio (SINR). Lastly, the simulation results show that the proposed low-interference TD-NC-OFDM can be similar sidelobe suppression performance, with negligible bit-error rate BER) degradation, compared to conventional NC-OFDM.