Prediction of electromagnetic power density emitted from GSM base stations by using multiple linear regression

International Journal of Applied Mathematics Electronics and Computers Pub Date : 2023-05-30 DOI:10.18100/ijamec.1242024

Sema Atasever, U. Sorgucu

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Abstract

Today, smart phones based on different mobile communication technologies such as GSM, GPRS/EDGE, 3G, 4G, 5G and 6G have become an indispensable element for various services such as communication, entertainment, and banking. In this context, determining the base station power level is important in terms of limit values and public health, especially in places with high power density. In this study, electromagnetic power density of 31 different base stations was measured at 900 MHz frequency at 20, 40 and 60 meters distances from base stations. Since it is practically not possible to measure each base station from every distance, 3 different distances were chosen randomly. Then, using the power density values measured from different distances, electromagnetic power density estimation was made with multiple linear regression (MLR) analysis method for distances at intermediate distances (25, 30, 35, 45, 50 and 55 meters). In this study, MLR analysis method was applied for power density estimation for the first time in the literature and adjusted R-square value above 0.99 was obtained for each intermediate distance.

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基于多元线性回归的GSM基站电磁功率密度预测

如今，基于GSM、GPRS/EDGE、3G、4G、5G、6G等不同移动通信技术的智能手机已经成为通信、娱乐、银行等各种业务不可或缺的元素。在这种情况下，确定基站的功率水平就限值和公共健康而言非常重要，特别是在功率密度高的地方。本研究测量了31个不同基站在900 MHz频率下距离基站20米、40米和60米的电磁功率密度。由于实际上不可能从每个距离测量每个基站，因此随机选择了3个不同的距离。然后，利用不同距离测得的功率密度值，采用多元线性回归(MLR)分析方法对中间距离(25、30、35、45、50和55 m)的电磁功率密度进行估计。本研究在文献中首次采用MLR分析法进行功率密度估计，各中间距离的调整后r方值均在0.99以上。

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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International Journal of Applied Mathematics Electronics and Computers

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