Indoor WiFi path loss model to estimate indoor network coverage considering residential design

IF 4.7 3区材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-01-15 DOI:10.1108/sasbe-05-2023-0131

Spencer Li Ern Teo, Yuhan Zhou, Justin K.W. Yeoh

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Abstract

PurposeNetwork coverage is crucial for the adoption of advanced Smart Home applications. The commonly used log-based path loss model is not able to accurately estimate WiFi signal strength in different houses, as it does not fully consider the impact of building morphology. To better describe the propagation of WiFi signals and achieve higher estimation accuracy, this paper studies the basic building morphology characteristics of houses.Design/methodology/approachA new path loss model based on a decision tree was proposed after measuring the WiFi signal strength passing through multiple housing units. Three types of regression models were tested and compared.FindingsThe findings demonstrate that the log-based path loss model fits small houses well, while the newly proposed nonlinear path loss model performs better in large houses (area larger than 125 m2 and area-to-perimeter ratio larger than 2.5). The impact of building design on path loss has been proven and specifically quantified in the model.Originality/valueProposed an improved model to estimate indoor network coverage. Quantify the impacts of building morphology on indoor WiFi signal strength. Improve WiFi signal strength estimation to support Smart Home applications.

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考虑住宅设计的室内 WiFi 路径损耗模型，用于估算室内网络覆盖范围

目的网络覆盖对于采用先进的智能家居应用至关重要。常用的基于对数的路径损耗模型无法准确估计不同房屋中的 WiFi 信号强度，因为它没有充分考虑建筑形态的影响。为了更好地描述 WiFi 信号的传播并获得更高的估算精度，本文研究了房屋建筑形态的基本特征。设计/方法/途径在测量了通过多个房屋单元的 WiFi 信号强度后，提出了基于决策树的新路径损耗模型。结果研究结果表明，基于对数的路径损耗模型非常适合小型房屋，而新提出的非线性路径损耗模型在大型房屋（面积大于 125 平方米，面积周长比大于 2.5）中表现更好。建筑设计对路径损耗的影响已在模型中得到证实和具体量化。原创性/价值提出了一种估算室内网络覆盖的改进模型。量化建筑形态对室内 WiFi 信号强度的影响。改进 WiFi 信号强度估算，支持智能家居应用。

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来源期刊

ACS Applied Electronic Materials Multiple-

CiteScore

7.20

自引率

4.30%

发文量

567

期刊介绍： ACS Applied Electronic Materials is an interdisciplinary journal publishing original research covering all aspects of electronic materials. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials science, engineering, optics, physics, and chemistry into important applications of electronic materials. Sample research topics that span the journal's scope are inorganic, organic, ionic and polymeric materials with properties that include conducting, semiconducting, superconducting, insulating, dielectric, magnetic, optoelectronic, piezoelectric, ferroelectric and thermoelectric. Indexed/Abstracted： Web of Science SCIE Scopus CAS INSPEC Portico

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