Dual-Step Hybrid Mechanism for Energy Efficiency Maximization in Wireless Network

IF 1.2 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS Cybernetics and Information Technologies Pub Date : 2023-09-01 DOI:10.2478/cait-2023-0025

Pundalik Chavan, Neelam Malyadri, Husna Tabassum, S. Supreeth, P. V. Bhaskar Reddy, Gururaj Murtugudde, S. Rohith, S. R. Manjunath, H. C. Ramaprasad

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Abstract

Abstract Wireless networks have become essential in daily life, with a growing number of base stations and connected devices. However, increasing traffic and energy consumption pose challenges. This research proposes a Dual Step Hybrid Mechanism (DSHM) for energy optimization, incorporating MIMO technologies. The first step introduces an optimal algorithm that iteratively updates the probability distribution to achieve the best solution. The second step focuses on reducing energy consumption while maximizing energy efficiency, using specific techniques and strategies to minimize usage without compromising energy maximization. The proposed approach is evaluated using parameter settings, including block length, path loss, hardware impairments, and bandwidth. The research investigates the impact of hardware impairments on energy efficiency and analyzes performance under different SINR constraints. The study also examines energy efficiency in active user density and base station density, highlighting the superior energy efficiency achieved by MIMO configurations.

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无线网络能效最大化的双步混合机制

随着越来越多的基站和连接设备的出现，无线网络已经成为人们日常生活中必不可少的一部分。然而，日益增长的交通和能源消耗带来了挑战。本研究提出一种结合MIMO技术的能量优化双阶混合机制(DSHM)。第一步引入最优算法，迭代更新概率分布以获得最佳解。第二步侧重于在最大限度提高能源效率的同时减少能源消耗，使用特定的技术和策略在不损害能源最大化的情况下最大限度地减少使用。所提出的方法使用参数设置进行评估，包括块长度，路径损失，硬件损伤和带宽。研究了硬件损伤对能效的影响，并分析了不同信噪比约束下的性能。该研究还考察了活跃用户密度和基站密度的能源效率，强调了MIMO配置所实现的卓越能源效率。

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