Impact of soil on UWB buried antenna and communication link in IR-UWB WUSN applications

H. Zemmour, G. Baudoin, C. Hamouda, A. Diet, M. Biancheri-Astier
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引用次数: 1

Abstract

Wireless Underground Sensor Networks (WUSN) consists of buried sensors nodes which are expected to communicate through the soil. The significantly high attenuation caused by the soil properties is the main challenge for their feasibility. This challenge is accentuated with Impulse Radio Ultra-Wide Band (IR-UWB) WUSN because of the very low transmitted power. This paper first studies the impact of the soil on performances of a new small UWB buried antenna and then analyzes the effect of soil properties on the communication link from underground to aboveground. This study includes the effect of soil moisture, burial depth and frequency. Measurements are achieved in a sample of soil composed of standard pebbles used in railway (railroad ballast). The simulations and measurements results show that with short distances and low soil moisture underground to aboveground UWB communication is possible.
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IR-UWB WUSN应用中土壤对UWB埋地天线和通信链路的影响
无线地下传感器网络(WUSN)由埋在地下的传感器节点组成,这些传感器节点有望通过土壤进行通信。土壤性质导致的显著高衰减是其可行性面临的主要挑战。由于发射功率非常低,脉冲无线电超宽带(IR-UWB) WUSN更加突出了这一挑战。本文首先研究了土壤对一种新型小型UWB埋地天线性能的影响,然后分析了土壤特性对地下至地上通信链路的影响。本研究包括土壤湿度、埋深和频率的影响。测量是在一个由铁路(铁路道砟)使用的标准鹅卵石组成的土壤样本中实现的。仿真和实测结果表明,在距离较近、土壤湿度较低的条件下,地下到地上的超宽带通信是可行的。
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