Design and Optimization of Hierarchical Demodulator and Decoder for Layered Coded OFDM-IM With NR-LDPC

Abstract

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In this paper, we first propose a novel code rate optimized orthogonal frequency division multiplexing with index modulation (OFDM-IM) transceiver architecture based on new radio low-density parity-check (NR-LDPC) coding, referred to as Rate Optimization of Layered Coded OFDM-IM with Hierarchical Demodulator and Decoder (RO-LC-OFDM-IM-HD), which can improve the error performance of system with no spectral efficiency loss. Subsequently, we devise a modified NR-LDPC-based extrinsic information transfer (NR-EXIT) algorithm, to analyze the decoding thresholds of NR-LDPC codes used for index bits and modulation bits in the proposed RO-LC-OFDM-IM-HD. Furthermore, we extend the idea to hierarchical modulation (HM), resulting the rate optimization of multilayered coded HM-OFDM-IM-HD (RO-MLC-HM-OFDM-IM-HD). Simulation results not only indicate that the prosposed RO-LC-OFDM-IM-HD and RO-MLC-HM-OFDM-IM-HD systems outperform the existing counterparts but also are consistent with the theoretical analyses. Therefore, the proposed RO-LC-OFDM-IM-HD and RO-MLC-HM-OFDM-IM-HD systems are competent to provide promising solutions for high reliability and high throughput wireless communications.

Keywords

• OFDM with index modulation (OFDM-IM)
• layered coded
• hierarchical demodulator and decoder
• NR-LDPC-based extrinsic information transfer (NR-EXIT)
• hierarchical modulation (HM)