复杂环境下双向协作通信研究
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Research on bidirectional cooperative communication in complex environment
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    摘要:

    双向协作通信应用于航空自组网、车联网等未来无线通信,面临着高速运动环境下信道状态变化导致通信质量大幅下降问题。利用随机信道建模方式,考虑通信过程前后子阶段信道状态信息相关性,推导了信道状态联合概率密度闭式表达式;提出了以最小化系统中断概率为目标的最优功率分配策略以改善双向协作通信系统的中断性能。蒙特卡罗仿真结果表明在不同的系统平均信噪比、信道相关系数(与通信节点运动速度相关)下最优功率分配相比于等功率分配可有效提高系统中断性能。基于最优功率分配的双向协作通信能克服高速运动环境下信道状态变化问题,具有高可靠高速率特点,能为航空自组网、车联网等未来无线通信应用提供技术支撑。

    Abstract:

    Twoway relaying (TWR) will be faced with the problem of QoS degradation because of timevarying channel when it is applied to the future applications such as aeronautical adhoc network and vehicle adhoc network. The channel model has been built which consider the correlation between two data transmission phases. The optimal power allocation (OPA) strategy to improve system performance is proposed, where minimizing the system outage probability is used as the optimization objective. The results produced by the MonteCarlo simulation show that the proposed OPA strategy can enhance the system outage performance efficiently compared with equal power allocation (EPA) strategy under different signaltonoise ratio (SNR) and different channel correlation coefficient, and more performance enhancement can be obtained with smaller channel fluctuation. Therefore the twoway relaying with OPA can be deployed in the highspeed motion environment such as aeronautical adhoc network and vehicle adhoc network.

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耿珂,胡坤,高强,熊华钢.复杂环境下双向协作通信研究[J].电子测量技术,2019,42(1):116-120

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  • 在线发布日期: 2021-05-19
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