Detail publikace

Models of Wave Propagation Along Car Roof

Originální název

Models of Wave Propagation Along Car Roof

Anglický název

Models of Wave Propagation Along Car Roof

Jazyk

en

Originální abstrakt

The paper is focused on modeling the transmission channel along a car roof. The frequencies of the anylysis are 2.4 GHz anf 5.8 GHz to be used for in-car wireless services. Propagation of electromagnetic energy and modeling the transmission channel along a well-conductive plate are the issues discussed. For the analytical description, we used the Norton model of electromagnetic wave propagation. Numerical models of wave propagation along a conductive plate were created in CST Microwave Studio and compared with the analytical model. Finally, the practical experiment was carried out, and results of measurements, numerical modeling and analytical modeling were compared.

Anglický abstrakt

The paper is focused on modeling the transmission channel along a car roof. The frequencies of the anylysis are 2.4 GHz anf 5.8 GHz to be used for in-car wireless services. Propagation of electromagnetic energy and modeling the transmission channel along a well-conductive plate are the issues discussed. For the analytical description, we used the Norton model of electromagnetic wave propagation. Numerical models of wave propagation along a conductive plate were created in CST Microwave Studio and compared with the analytical model. Finally, the practical experiment was carried out, and results of measurements, numerical modeling and analytical modeling were compared.

BibTex


@inproceedings{BUT137862,
  author="Martin {Kotol} and Zbyněk {Raida}",
  title="Models of Wave Propagation Along Car Roof",
  annote="The paper is focused on modeling the transmission channel along a car roof. The frequencies of the anylysis are 2.4 GHz anf 5.8 GHz to be used for in-car wireless services. Propagation of electromagnetic energy and modeling the transmission channel along a well-conductive plate are the issues discussed. For the analytical description, we used the Norton model of electromagnetic wave propagation. Numerical models of wave propagation along a conductive plate were created in CST Microwave Studio and compared with the analytical model. Finally, the practical experiment was carried out, and results of measurements, numerical modeling and analytical modeling were compared.",
  address="IEEE Xplore",
  booktitle="International Conference RADIOELEKTRONIKA 2017",
  chapter="137862",
  doi="10.1109/COMITE.2017.7932309",
  howpublished="online",
  institution="IEEE Xplore",
  year="2017",
  month="april",
  pages="100--104",
  publisher="IEEE Xplore",
  type="conference paper"
}