Energy and spectral efficient transmissions of coded ARQ systems

Jingxian Wu, G. Wang, Y. R. Zheng
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引用次数: 8

Abstract

Energy efficiency (EE) and spectral efficiency (SE) feature one of the most fundamental tradeoffs in communication systems. In this paper, we propose an optimum transmission scheme for coded Type-I automatic repeat request (ARQ) systems to balance the EE-SE tradeoff. The optimization is performed with respect to a new design metric, the normalized EE (NEE), which is defined as the energy per bit normalized by the SE. Minimizing NEE means either reducing the energy per bit or increasing the SE, it thus yields a balanced tradeoff between the two. The system design incorporates a wide range of practical system parameters, such as circuit power, modulation, coding, and detection errors in the physical layer, and frame length and protocol overhead in the media access control layer. Under the constraints of fixed modulation level and data rate, the optimum transmission energy and frame length are identified as closed-form expressions of the system parameters. Simulation results show that minimizing the NEE instead of energy per bit almost doubles the SE with less than 1 dB loss in EE.
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编码ARQ系统的能量和频谱有效传输
能源效率(EE)和频谱效率(SE)是通信系统中最基本的权衡之一。在本文中,我们提出了一种编码型i自动重复请求(ARQ)系统的最佳传输方案,以平衡EE-SE的权衡。优化是根据一种新的设计指标进行的,即归一化EE (NEE),它被定义为经SE归一化的每比特能量。最小化NEE意味着减少每比特的能量或增加SE,因此在两者之间产生平衡的权衡。该系统设计包含了广泛的实用系统参数,例如物理层中的电路功率、调制、编码和检测错误,以及媒体访问控制层中的帧长度和协议开销。在固定调制电平和数据速率的约束下,将最佳传输能量和帧长确定为系统参数的封闭表达式。仿真结果表明,最小化NEE而不是最小化每比特能量几乎可以使SE翻倍,而EE的损耗小于1 dB。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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