Lianjun Deng scite author profile

This paper proposes using iterative decision-feedback channel estimation (DFCE) in a turbo soft interference canceller (SIC) for a quasi-orthogonal (QO) -space-time block code (STBC) with four antennas in discrete Fourier transform (DFT)-precoded orthogonal frequency division multiple access (OFDMA). In the proposed method, channel estimation (CE) is updated at each turbo SIC iteration loop by using soft-symbol estimation based on the log-likelihood ratio (LLR) of an extrinsic probability at the Max-Log-MAP (maximum a posteriori probability) decoder output. Hence, the accuracy of the generated residual inter-code interference (ICI) due to non-orthogonality in the QO-STBC improves in the turbo SIC, which leads to improvement in the achievable performance. Computer simulation results show that by applying the proposed iterative DFCE in the turbo SIC, the required average received signal-to-noise power ratio (SNR) at the average block error rate (BLER) of 10' 2 is decreased by approximately 1.5 and 1.0 dB compared to those for STBC using reference signal (RS) based CE and DFCE, respectively, for the coding rate of R = 113 in turbo code. Hence, the iterative DFCE works cooperatively in the turbo SIC to decrease the ICI in the full rate QO-STBC.

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Lianjun Deng

High-order circular QAM constellation with high LDPC coding rate for phase noise channels

Combined Effect of Transmit Diversity and Frequency Hopping for DFT-Precoded OFDMA in Uplink Frequency-Selective Fading Channels

Performance of pilot symbol assisted and PLL phase noise estimation and compensation for high-order circular QAM

Performance of Open-Loop Transmit Diversity with Intra-Subframe Frequency Hopping and Iterative Decision-Feedback Channel Estimation for DFT-Precoded OFDMA

Iterative decision-feedback channel estimation for turbo SIC in DFT-precoded OFDMA using QO-STBC

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