UAV-Enabled Hardware-Impaired Cell-free Massive MIMO With Spatially-Correlated Rician Fading

机译：使能无人机的硬件损伤的无细胞大规模MIMO，具有空间相关的RICIAN DADING

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We consider an unmanned aerial vehicle (UAV) enabled cell-free (CF) massive multi-input multi-output (mMIMO) system, where multi-antenna access points (APs) assist various single-antenna UAVs and ground users (GUEs). Unlike, existing CF mMIMO works, we assume non-ideal transceiver hardware at the UAVs, GUEs and APs, and derive a closed-form downlink spectral efficiency (SE) expression by considering spatially-correlated Rician channels and channel estimation errors. We also propose a novel block quadratic transformation technique to optimize the system global energy-efficiency (GEE) by incorporating practical backhaul power, circuit and UAV propulsion power. We numerically show that severely hardware-impaired UAVs will have a higher SE when they operate at a larger height.

机译：我们考虑一个无人驾驶的空中车辆（UAV）使能的无细胞（CF）大规模的多输入多输出（MMIMO）系统，其中多天线接入点（APS）辅助各种单天线无人机和地面用户（GUES）。与现有的CF MMIMO工作不同，我们假设在UAV，GUES和AP的非理想收发器硬件，并通过考虑空间相关的瑞代信道和信道估计错误来导出闭合的下行链路频谱效率（SE）表达式。我们还提出了一种新颖的二次转换技术，通过结合实际回程电源，电路和无人机推进功率来优化系统全球能效（GEE）。我们在数字上显示，当它们在更大的高度运行时，严重硬件障碍的无人机将具有更高的SE。

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《IEEE International Conference on Communications》|2021年|1-6|共6页
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Venkatesh Tentu; Dheeraj Naidu Amudala; Ekant Sharma; Rohit Budhiraja;
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Spectral efficiency; Rician channels; Massive MIMO; Propulsion; Downlink; Unmanned aerial vehicles; Hardware;

机译：光谱效率;瑞典渠道;大规模的MIMO;推进;下行链路;无人驾驶飞行器;硬件;

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1. Uplink Performance of Cell-Free Massive MIMO Over Spatially Correlated Rician Fading Channels [J] . Wang Zhe, Zhang Jiayi, Bjornson Emil, IEEE communications letters . 2021,第4期

机译：在空间相关的RICian衰落通道上的无细胞大规模MIMO的上行链路性能
2. On the Performance of Cell-Free Massive MIMO With Mixed-ADC Under Rician Fading Channels [J] . Zhang Yao, Zhou Meng, Cao Haotong, IEEE communications letters . 2020,第1期

机译：关于瑞典衰落通道下混合ADC的无细胞大规模MIMO的性能
3. Performance of Cell-Free Massive MIMO With Rician Fading and Phase Shifts [J] . Ozdogan Ozgecan, Bjornson Emil, Zhang Jiayi IEEE transactions on wireless communications . 2019,第11期

机译：具有Rician衰落和相移的无蜂窝大规模MIMO的性能
4. Spatially-Correlated Hardware-Impaired Massive MIMO FD Relaying with MIMO Users [C] . Dheeraj Naidu Amudala, Ekant Sharma, Rohit Budhiraja IEEE International Conference on Communications Workshops . 2020

机译：具有MIMO用户的空间相关的硬件受损的大规模MIMO FD中继
5. MIMO transmission over nonlinear fading channels: A study of the effects of amplifier nonlinear distortions on space-time codes and MIMO beamforming systems. [D] . Sulyman, Ahmed Iyanda. 2007

机译：非线性衰落信道上的MIMO传输：研究放大器非线性失真对时空码和MIMO波束成形系统的影响。
6. Large Intelligent Surfaces Communicating Through Massive MIMO Rayleigh Fading Channels [O] . Ricardo Coelho Ferreira, Michelle S. P. Facina, Felipe A. P. de Figueiredo, 2020

机译：大型智能表面通过大规模的MIMO RAYLEIGH衰落通道进行通信
7. Max-Min Fair Wireless-Powered Cell-Free Massive MIMO for Uncorrelated Rician Fading Channels [O] . Ozlem Tugfe Demir, Emil Bjornson 2020

机译：MAX-MIN公平无线供电的无胶片巨型型号的巨型MIMO

UAV-Enabled Hardware-Impaired Cell-free Massive MIMO With Spatially-Correlated Rician Fading

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