Large-scale fading model for mobile communications in disaster and salvage scenarios

2010 International Conference on Wireless Communications & Signal Processing (WCSP) Pub Date : 2010-11-11 DOI:10.1109/WCSP.2010.5633059

Ling Chen, M. Loschonsky, L. Reindl

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引用次数: 17

Abstract

Within a running project, I-LOV, wireless communication channel model for mobile radio propagation in disaster and salvage scenarios is developed. This contribution focuses on a semi-empirical large-scale fading (LSF) model, which is able to estimate signal power loss between base station and mobile phone under debris. Due to multitude of diverse materials appearing in burying scenarios, the signal loss factor varies heavily depending on electromagnetic properties of involved materials. Additionally, highly variable shape and dimension of rubbles impact strongly the loss factor. Besides numerous LSF models investigated in urban environments, only a few are in ruins. This paper presents a novel modeling concept of LSF in catastrophe scenarios. The proposed LSF model handles the radio propagation way in two parts: outside ruins and through the ruins. Measurements have been conducted at GSM 900 and GSM 1800 bands in collapsed buildings of stratified rubbles, as well as in an avalanche scenario. The model predication fits the measured data well.

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灾害救援场景下移动通信的大规模衰落模型

在一个正在运行的项目I-LOV中，开发了灾害和救援场景下移动无线电传播的无线通信信道模型。这一贡献侧重于一个半经验大规模衰落(LSF)模型，该模型能够估计基站和移动电话在碎片下的信号功率损失。由于埋地场景中出现的材料种类繁多，信号损耗因子在很大程度上取决于所涉及材料的电磁特性。此外，高度变化的形状和尺寸的碎石强烈影响损失系数。除了在城市环境中研究的许多LSF模型外，只有少数模型处于废墟中。本文提出了一种新的巨灾情景下LSF的建模概念。所提出的LSF模型将无线电传播方式分为遗址外和遗址内两部分进行处理。测量GSM 900和GSM 1800波段的倒塌建筑物的分层瓦砾，以及在雪崩的情况下。模型预测与实测数据拟合较好。

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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2010 International Conference on Wireless Communications & Signal Processing (WCSP)

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