Channel Coding for Ultra-Reliable Low-Latency Communication in 5G Systems

Michał Sybis, K. Wesołowski, Keeth Jayasinghe, V. Venkatasubramanian, V. Vukadinovic
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引用次数: 139

Abstract

This paper investigates block error rate (BLER) performance and computational complexity of candidate channel coding schemes for ultra-reliable low latency communication (URLLC) in 5G. The considered candidates are the same as those identified in 3GPP: turbo, LDPC, polar, and convolutional codes. Details of code constructions and decoding algorithms are provided with computational complexity analysis. Code construction parameters, number of iterations, and list sizes are selected to provide a fair comparison among candidate coding schemes. Simulation results on BLER are shown for several code rates and small-to-moderate block sizes. The results reveal that polar and LDPC codes outperform turbo codes for short block sizes of 40 bits, while the opposite is true for medium block sizes of 200 bits. None of the schemes is a clear winner at all considered block sizes and coding rates. Other aspects like implementation complexity, latency, and flexibility will also be important when deciding the URLLC coding scheme.
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5G系统中超可靠低延迟通信的信道编码
研究了5G超可靠低延迟通信(URLLC)候选信道编码方案的块错误率(BLER)性能和计算复杂度。考虑的候选代码与3GPP中确定的相同:turbo、LDPC、polar和卷积代码。详细的代码结构和解码算法提供了计算复杂度分析。选择代码构造参数、迭代次数和列表大小是为了在候选编码方案之间提供公平的比较。在BLER上显示了几种码率和小到中等块大小的仿真结果。结果表明,极性和LDPC码在40位的短块大小上优于turbo码,而在200位的中等块大小上则相反。考虑到块大小和编码速率,没有一个方案是明显的赢家。在决定URLLC编码方案时,实现复杂性、延迟和灵活性等其他方面也很重要。
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