基于功率优化和波束形成方法的MIMO-NOMA型非完美CSI下CRN物理层安全

2022 Second International Conference on Advanced Technologies in Intelligent Control, Environment, Computing & Communication Engineering (ICATIECE) Pub Date : 2022-12-16 DOI:10.1109/ICATIECE56365.2022.10047600

Hitendra Agrawal, Manish Joshi

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引用次数: 0

摘要

为了提高基于mimonoma的CRN的PLS，本文提出了一种利用地面站可用的理想信道状态数据进行报文对齐的发射零强迫波束形成技术。上述研究利用了几个单元的大可构造性。每个组都有一个负责实现CRN的“主用户”和一个“备用用户”。每个cell的PU和SU都是随机分配位置的。最后，当地面站只有不完美的CSI可用时，我们提出了一种基于MIMO-NOMA的特征宽带技术来增强CRN的PLS。针对这两种宽频带方法分别建立了最优的功率分配算法，以进一步改善PLS。最后，给出了由于Nakagami-m多径衰落导致的数据丢失概率的封闭表达式。下面的步骤涉及将模拟研究的结果和目前使用的其他方法与该声明进行对比。

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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MIMO-NOMA oriented CRN Physical Layer Security on Imperfect CSI using Power Optimization and Beamforming Methods

To improve the PLS for a MIMONOMA-based CRN, this paper proposes a transmit-zero-forcing beamforming technique to message alignment, using the ideal channel state data available at the earth station. The above investigation makes use of a large constructability of several cells. Every group has a “primary user” and a “alternate user” who are responsible for implementing the CRN. Both the PU and SU of each cell are assigned locations at random. Finally, when only imperfect CSI is available at the ground station, we propose an eigen wideband technique to enhance the PLS for a CRN based on MIMO-NOMA. Optimal power allocation algorithms are created for both wideband methods to further improve the PLS. Finally, a closed-form expression for the probability of data lost due to Nakagami-m multi-path fading is presented. The following step involves contrasting the results of simulation studies and other methods currently in use with this statement.

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来源期刊

2022 Second International Conference on Advanced Technologies in Intelligent Control, Environment, Computing & Communication Engineering (ICATIECE)

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