A. Bayram scite author profile

The propagation of ultrawideband (UWB) signals in indoor environments is an important issue with significant impacts on the future direction and scope of UWB technology. The propagation of UWB signals is governed, among other things, by the properties of materials in the propagation medium. The information on electromagnetic properties of construction materials in the UWB frequency range would provide valuable insights into the appreciation of the capabilities and limitations of UWB technology. Although electromagnetic properties of certain construction materials over relatively narrow bandwidths in GHz frequency ranges are available, ultrawideband characterisation of most typical construction materials for UWB communication purposes has not been reported. In narrowband wireless communications, only the magnitude of insertion loss has been the quantity of interest. But for UWB signals, in addition to the magnitude, the phase information is an equally important factor that needs to be accounted for. In fact, UWB signals not only suffer attenuation when propagating through walls, but also suffer distortion due to the dispersive properties of the walls. This research examines propagation through typical construction materials and their ultrawideband characterisation. Ten commonly used construction materials are chosen for this investigation. Results for the dielectric constant and loss tangent of the materials over the UWB frequency range are presented. Accuracy of the measured results is discussed and distortions of UWB signals due to the dispersive properties of wall materials are addressed.

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UWB applications for through-wall detection

Attiya

Bayram

Safaai‐Jazi

et al. 2004

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Effect of UV exposure of ITO/PEDOT:PSS substrates on the performance of inverted-type perovskite solar cells

Alishah

Kazıcı

Ongül

et al. 2020

J Mater Sci: Mater Electron

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Ultra wideband material characterization for indoor propagation

Muqaibel

Safaai‐Jazi

Bayram

et al.

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The information on electromagnetic properties of building materials in the ultra wideband (UWB) frequency range provides valuable insights in assessing the capabilities and limitations of UWB technology. This research examines propagation through typical construction materials and their ultra wideband characterization. Ten commonly used construction materials are chosen for this investigation. Results for the insertion loss and the dielectric constant of each material over a frequency range of 0.5 to 15 GHz are presented.

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A. Bayram

Ultrawideband through-the-wall propagation

UWB applications for through-wall detection

Effect of UV exposure of ITO/PEDOT:PSS substrates on the performance of inverted-type perovskite solar cells

Ultra wideband material characterization for indoor propagation

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