Prediction model of energy security for the systems of subscriber radio access with branched street and corridor communications channels

Authors

  • A. A. Strelnitskiy Kharkiv National University of Radioelectronics, Ukraine
  • A. E. Strelnitskiy Kharkiv National University of Radioelectronics, Ukraine
  • O. I. Tsopa Kharkiv National University of Radioelectronics, Ukraine
  • V. M. Shokalo Kharkiv National University of Radioelectronics, Ukraine

DOI:

https://doi.org/10.3103/S0735272711020014

Keywords:

intensity of radio waves, method of microwave circuits, multipolar mode, borrowed channel, branching wave channel, numerical experiment, energy security

Abstract

This paper is devoted to the issues of investigating the energy security (noise immunity plus stealthiness) of subscriber radio access systems built on the basis of branched corridor and street wave channels formed by architectural structures. A multiport model has been created within the framework of the known concept of wire-tap channel (information leakage channel). This model makes it possible to determine the intensity of waves at any section of the structure under consideration (including the wire-tap channel) and, consequently, the security characteristics, by using the methods of microwave circuits.

The proposed model was applied for investigating the energy security of subscriber radio access systems with branched Wi–Fi corridor radio channels by using numerical experiments.

References

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А.А. Strel’nitskii, O. I. Tsopa, and V. M. Shokalo, “Microwave Multiport Model of Branched Corridor Radio Channels during the Indoor Operation of Wi–Fi System,” in Collection of Abstracts of the 19th Int. Crimean Conf. “Microwave Equipment and Telecommunications Technologies ‘CriMiCo’ 2009”, Sevastopol, Ukraine, 2009 (SNTU, Sevastopol, 2009), Vol. 1, pp. 271–272.

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Published

2011-02-01

Issue

Section

Research Articles