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A new approximate time domain reflection coefficient, the relationship between the reflection and refraction on slab
surfaces, and expression for propagation loss term within the slab in time domain are deduced in this paper. By using
time domain convolution of the three terms, a simplified analytic solution for UWB impulse signal transmitting through
a finitely conducting slab is proposed. This solution takes into account the frequency range from 3.1 to 10.6 GHz and is
suitable for most common building construction materials within indoor environment. The simulations of incident
monocycle transmitting through slabs of different materials and thickness are presented by applying the simplified time
domain analytic solution to illustrate the characteristics of transmission and give some results in simplification of
transmission field analysis in indoor channel modeling.
Yang Wang,Naitong Zhang,Qinyu Zhang, andZhongzhao Zhang
"Time domain characteristics of UWB signal transmitting through a finitely conducting slab", Proc. SPIE 6795, Second International Conference on Space Information Technology, 679506 (10 November 2007); https://doi.org/10.1117/12.772855
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Yang Wang, Naitong Zhang, Qinyu Zhang, Zhongzhao Zhang, "Time domain characteristics of UWB signal transmitting through a finitely conducting slab," Proc. SPIE 6795, Second International Conference on Space Information Technology, 679506 (10 November 2007); https://doi.org/10.1117/12.772855