下行毫米波混合MIMO认知无线电系统的混合收发器设计与最佳功率分配

J. Singh, Indranil Chatterjee, Suraj Srivastava, A. Jagannatham
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引用次数: 3

摘要

针对工作在底层模式下的下行毫米波(mmWave)多输入多输出(MIMO)认知无线电(CR)系统,提出了一种具有最佳功率分配的混合收发器架构。为此,通过解耦混合预编码器和组合器的设计,简化了和谱效率最大化问题的非凸目标和约束条件。首先,考虑到对下行毫米波MIMO信道的充分了解,我们设计了每个SU的组合器。随后,使用容量最优全数字预编码器的最佳逼近问题设计了前端数字基带(BB)预编码器和模拟域RF预编码器。此外,我们的设计还考虑了毫米波MIMO信道之间的空间相关性,从而显著降低了模拟预编码器/组合器设计的计算复杂度。此外,为了消除多用户干扰(MUI),采用低复杂度零强迫(ZF)技术设计了BB预编码器后端。最后,导出了在主用户(PU)干扰功率约束下,使下行毫米波MIMO CR系统的总体SE最大化的最优功率分配问题的封闭解。我们的仿真结果显示,与最先进的方法相比,SE得到了改进,同时性能接近理想的全数字基准。
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Hybrid Transceiver Design and Optimal Power Allocation in Downlink mmWave Hybrid MIMO Cognitive Radio Systems
A hybrid transceiver architecture along with the optimal power allocation is conceived for a downlink millimeter wave (mmWave) multi-input multi-output (MIMO) cognitive radio (CR) system operating in the underlay mode. Towards this, the non-convex objective and constraints of the sum spectral ef-ficiency (SE) maximization problem are simplified by decoupling the hybrid precoder and combiner designs. First, considering the perfect knowledge of the downlink mmWave MIMO channel, we design the combiner at each SU. Subsequently, the front-end digital baseband (BB) precoder and analog-domain RF precoder are designed using the best-approximation problem to the capacity-optimal fully-digital precoder. Moreover, our design also considers the spatial correlation among the mmWave MIMO channels, thereby significantly reducing the computational complexity for the analog precoder/combiner design. Furthermore, in order to cancel the multiuser interference (MUI), the back-end of the BB precoder has been designed using the low-complexity zero-forcing (ZF) technique. Finally, a closed-form solution to the optimal power allocation problem is derived, which maximizes the overall SE of the downlink mm Wave MIMO CR system under the interference power constraint imposed by the primary user (PU). Our simulation findings show an improved SE compared to state-of-the-art approaches while performing close to the ideal fully-digital benchmark.
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