Abstract
Protograph low-density parity-check (LDPC) codes and large-scale multi-input multi-output (LS-MIMO) systems have achieved great interest with various practical applications. However, how to effectively evaluate and design protograph LDPC codes for LS-MIMO systems remains a challenging yet critical problem, especially for low-latency applications. To solve that design challenge, the protograph extrinsic information transfer chart (PEXIT) algorithm for LS-MIMO systems, so-called LS-MIMO-PEXIT algorithm, is first derived based on the mutual information functions of messages that are passed on the joint MIMO detection and LDPC decoding graph. The proposed LS-MIMO-PEXIT algorithm plays a vital role in the optimization process of designing new protograph LDPC codes, tailored for LS-MIMO communications systems. Experiment results demonstrate that the analytical results based on the LS-MIMO-PEXIT algorithm are in good agreement with the simulation results under various input constraints, including the coding rate, the number of decoding iterations, and the LS-MIMO configuration. On top of that, the new protograph LDPC codes designed using our LS-MIMO-PEXIT algorithm achieve a coding gain from 0.2 dB at a low coding rate to 0.4 dB at a high coding rate in comparison with the state-of-the-art protograph codes in the literature. Additionally, we incorporate the practical design experience and the theoretical analysis of mutual functions into a two-step procedure to search for protograph LDPC codes that do not have error-floor behavior at frame error rate (FER) or bit error rate (BER) as low as 10 <sup xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">-5</sup> or 10 <sup xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">-7</sup> , respectively. Together with the coding gain, the error-floor-free feature of the proposed protograph LDPC codes is vitally important for future wireless networks where the ultra-reliability is one of the critical requirements.
Highlights
The reason is due to the massive number of antennas that are involved in the detection process and the absence of a systematic tool to iteratively evaluate and optimize the performance of the protograph low-density parity-check (LDPC) codes over large-scale multi-input multi-output (LS-multi-input multi-output (MIMO)) channels to find the optimal proto-matrix of the underlying protograph
The cost function is obtained by applying the LS-MIMOPEXIT algorithm in Section III. fc(B) ≤ 0, c = 1, 2, · · ·, C represent the set of constraints according the design guidelines of protograph LPDC codes [8]
We are interested in a small number of decoding iterations because the low latency is one of the critical requirements in the future wireless communications [5], [6]
Summary
A. MOTIVATION Thanks to their powerful error-correcting capability and low complexity encoder/decoder structures, protograph LDPC codes have attracted paramount research interest as well as practical applications [1]–[4]. MOTIVATION Thanks to their powerful error-correcting capability and low complexity encoder/decoder structures, protograph LDPC codes have attracted paramount research interest as well as practical applications [1]–[4] Both LDPC codes and LS-MIMO scheme are two of the core technologies for future wireless networks (6G) [5], [6]. How to effectively evaluate and design protograph LDPC codes for multi-input multi-output (MIMO) systems with a large number of antennas (referred to as large-scale MIMO or LS-MIMO) remains a challenging yet critical problem. The reason is due to the massive number of antennas that are involved in the detection process and the absence of a systematic tool to iteratively evaluate and optimize the performance of the protograph LDPC codes over LS-MIMO channels to find the optimal proto-matrix of the underlying protograph
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