A New MIMO Technique Utilizing Superimposed Auxiliary Signals for Simultaneously Achieving Spatial Multiplexing and Diversity Gains in MIMO-Aided Communication Systems

RS Open Journal on Innovative Communication Technologies Pub Date : 2021-06-30 DOI:10.46470/03d8ffbd.a04e8f92

Sadiq Iqbal, Shaheer Khalid, Jehad M. Hamamreh

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引用次数: 2

Abstract

Future wireless communication systems demand superior spectral efficiency, enhanced system reliability, improved SNR gain, and better employment of power resources than currently deployed systems. In this work, we propose a new MIMO communication technique that can simultaneously provide multiplexing gain and diversity gain as well as reduce complexity and processing at the receiver side. The proposed system transceiver structure utilizes superimposed auxiliary signals that are designed based on the wireless channel characteristics to eliminate inter antenna interference as well as completely remove the channel effects at the receiver while providing low reception complexity. The efficiency and novelty of the proposed system are verified via extensive mathematical analysis and validated by numerical simulations. The obtained results indicate that the proposed new model achieves high throughput, enhanced reliability, improved connectivity, less complexity, and more efficient communication, which is suitable for low power consumption and limited processing IoT applications.

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一种利用叠加辅助信号同时实现MIMO辅助通信系统空间复用和分集增益的MIMO新技术

与目前部署的系统相比，未来的无线通信系统需要更高的频谱效率、增强的系统可靠性、改进的信噪比增益和更好的电力资源利用。在这项工作中，我们提出了一种新的MIMO通信技术，它可以同时提供复用增益和分集增益，并降低接收端的复杂性和处理。所提出的系统收发器结构利用基于无线信道特性设计的叠加辅助信号，消除天线间干扰，完全消除接收端的信道影响，同时提供较低的接收复杂度。通过广泛的数学分析和数值模拟验证了该系统的有效性和新颖性。结果表明，新模型实现了高吞吐量、可靠性增强、连通性改善、复杂性降低和通信效率提高，适用于低功耗和有限处理量的物联网应用。

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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RS Open Journal on Innovative Communication Technologies

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