Beamforming Array Antenna Technique Based on Partial Update Adaptive Algorithms

IF 0.8 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC

International Journal of Electrical and Computer Engineering Systems Pub Date : 2023-10-24 DOI:10.32985/ijeces.14.8.1

Zahraa A. Shubber, Thamer M. Jamel, Ali. K. Nahar

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引用次数: 0

Abstract

The most important issues for improving the performance of modern wireless communication systems are interference cancellation, efficient use of energy, improved spectral efficiency and increased system security. Beamforming Array Antenna (BAA) is one of the efficient methods used for this purpose. Full band BAA, on the other hand, will suffer from a large number of controllable elements, a long convergence time and the complexity of the beamforming network. Since no attempt had previously been made to use Partial Update (PU) for BAA, the main novelty and contribution of this paper was to use PU instead of full band adaptive algorithms. PU algorithms will connect to a subset of the array elements rather than all of them. As a result, a common number of working antennas for the system's entire cells can be reduced to achieve overall energy efficiency and high cost-effectiveness. In this paper, we propose a new architectural model that employs PU adaptive algorithms to control and minimize the number of phase shifters, thereby reducing the number of base station antennas. We will concentrate on PU LMS (Least Mean Square) algorithms such as sequential-LMS, M-max LMS, periodic-LMS, and stochastic-LMS. According to simulation results using a Uniform Linear Array (ULA) and three communications channels, the M-max-LMS, periodic LMS, and stochastic LMS algorithms perform similarly to the full band LMS algorithm in terms of square error, tracking weight coefficients, and estimation input signal, with a quick convergence time, low level of error signal at steady state and keeping null steering's interference-suppression capability intact.

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基于部分更新自适应算法的波束形成阵列天线技术

为了提高现代无线通信系统的性能，最重要的问题是消除干扰、有效利用能量、提高频谱效率和提高系统安全性。波束形成阵列天线(BAA)是实现这一目标的有效方法之一。而全频带BAA则存在可控因素多、收敛时间长、波束形成网络复杂等问题。由于以前没有尝试使用部分更新(PU)进行BAA，因此本文的主要新颖和贡献在于使用PU代替全波段自适应算法。PU算法将连接到数组元素的子集，而不是所有元素。因此，可以减少系统整个单元的共同工作天线数量，以实现整体能源效率和高成本效益。在本文中，我们提出了一种新的架构模型，该模型采用PU自适应算法来控制和最小化移相器的数量，从而减少基站天线的数量。我们将专注于PU LMS(最小均方)算法，如序列LMS、M-max LMS、周期性LMS和随机LMS。采用均匀线性阵列(ULA)和三个通信通道的仿真结果表明，M-max-LMS、周期LMS和随机LMS算法在平方误差、跟踪权系数和估计输入信号方面与全频带LMS算法相似，收敛时间快，稳态误差信号水平低，并保持了零转向的干扰抑制能力。

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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来源期刊

International Journal of Electrical and Computer Engineering Systems ENGINEERING, ELECTRICAL & ELECTRONIC-

CiteScore

1.20

自引率

11.80%

发文量

期刊介绍： The International Journal of Electrical and Computer Engineering Systems publishes original research in the form of full papers, case studies, reviews and surveys. It covers theory and application of electrical and computer engineering, synergy of computer systems and computational methods with electrical and electronic systems, as well as interdisciplinary research. Power systems Renewable electricity production Power electronics Electrical drives Industrial electronics Communication systems Advanced modulation techniques RFID devices and systems Signal and data processing Image processing Multimedia systems Microelectronics Instrumentation and measurement Control systems Robotics Modeling and simulation Modern computer architectures Computer networks Embedded systems High-performance computing Engineering education Parallel and distributed computer systems Human-computer systems Intelligent systems Multi-agent and holonic systems Real-time systems Software engineering Internet and web applications and systems Applications of computer systems in engineering and related disciplines Mathematical models of engineering systems Engineering management.