Abstract
Polar codes were first proposed by E. Arikan in 2009 and have received significant attention in recent years. Successive-cancellation (SC) and belief-propagation (BP) decoding algorithms have been applied by some researchers to polar codes. However, unlike SC-based decoders, the performance optimization of BP-based decoders has not been fully explored yet, especially in regard to the impact of the number of iterations on the decoding complexity. In this paper, a novel early stopping criterion based on partial frozen bits for belief-propagation polar code decoders is designed. The proposed criterion is based on the fact that some of the frozen bits that are known to the decoders have a higher average error probability than the information bits and can be used to terminate the decoding. Furthermore, the hardware architecture of the BP-based polar code decoder with the proposed stopping criterion is presented. The simulation results show that the proposed early stopping criterion greatly reduces the number of iterations of BP-based polar code decoders without any performance loss and reduces the hardware complexity from O (NlogN) to O (N) compared with state-of-the-art design.
Highlights
The polar codes were proposed by E
SIMULATION RESULTS AND COMPARISONS This section will provide the comparisons of the error performance and the average iteration reductions for the G-Matrix, WIB, FBER and proposed best frozen bits (BFBs) early stopping criteria
The Bhattacharyya method is adopted to determine the indices of information bits and frozen bits
Summary
The polar codes were proposed by E. Several early stopping criteria have been proposed for BP-based polar code decoders in [8]–[10], with the aim of reducing the redundant iterations and computational complexity. To further reduce the decoding complexity, the WIB (worst information bits) method was proposed in [9] to early stop the BP decoder. In [10], the FBER (Frozen BER) criterion was designed for the BP decoding algorithm with a slight reduction in the number of iterations compared to the WIB method. Y. Yan et al.: Simplified Early Stopping Criterion for Belief-Propagation Polar Code Decoder Based on Frozen Bits. Stopping criteria for BP decoding algorithms for polar codes and reduce the computational complexity. Simulation results show that the proposed early stopping criterion greatly reduces the decoding complexity of BP-based polar code decoders with no performance loss.
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