Jingkang Shi scite author profile

Wireless Underground Sensor Networks (WUSNs), an important part of Internet of things (IoT), have many promising applications in various scenarios. Signal transmission in natural soil undergoes path loss due to absorption, radiation, reflection and scattering. The variability and dynamic of soil conditions and complexity of signal attenuation behavior make the accurate estimation of signal path loss challenging. Two existing propagation models for predicting path loss are reviewed and compared. Friis model does not consider the reflection loss and is only applicable in the far field region. The Fresnel model, only applicable in the near field region, has not considered the radiating loss and wavelength change loss. A new two stage model is proposed based on the field characteristics of antenna and considers four sources of path loss. The two stage model has a different coefficient m in the near field and far field regions. The far field distance of small size antenna is determined by three criteria: 2 D2/λ, 5 D, 1.6 λ in the proposed model. The proposed two stage model has a better agreement with the field experiment data compared to Friis and Fresnel models. The coefficient m is dependent on the soil types for the proposed model in near field region. It is observed from experiment data that the m value is in the range of 0~0.20 for sandy soils and 0.433~0.837 for clayey silt.

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A horizontal convergence monitoring method based on wireless tilt sensors for shield tunnels with straight joints

Wang

Shi

Huang

et al. 2020

Structure and Infrastructure Engineering

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Refined 3D modelling of spatial-temporal distribution of excess pore water pressure induced by large diameter slurry shield tunneling

Shi

Wang

Zhang

et al. 2021

Computers and Geotechnics

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Numerical Analysis of Influence of Ground Variation on Deformation and Internal Forces of Large Diameter Shield Tunnel

Shi

Zhang

Huang

2018

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Jingkang Shi

Modified analytical solution of shield tunnel lining considering nonlinear bending stiffness of longitudinal joint

Theoretical and Experimental Studies on the Signal Propagation in Soil for Wireless Underground Sensor Networks

A horizontal convergence monitoring method based on wireless tilt sensors for shield tunnels with straight joints

Refined 3D modelling of spatial-temporal distribution of excess pore water pressure induced by large diameter slurry shield tunneling

Numerical Analysis of Influence of Ground Variation on Deformation and Internal Forces of Large Diameter Shield Tunnel

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