350 rub
Journal Nonlinear World №6 for 2010 г.
Article in number:
Models and the Method of the Optimization of the Parameters of Protocols RLC/MAC from GPRS Stack for the Purpose of an Improvement in the Indices of Quality of Servicing
Authors:
A.A. Baryshnikov
Abstract:
Ionospheric geometricaloptics polarization effects are analyzed: the Faraday effect and the CottonMouton effect. These effects result in rotation of polarization plane and deformation of polarization ellipsis of a radar signal. The Faraday effect is traditionally considered as the main cause of depolarization of a signal. The order of magnitude of the Faraday effect in most cases is greater than the order of magnitude of the CottonMouton effect. There is a possibility to obtain the original scattering matrix of a target from fullpolarimetric radar data, distorted by the Faraday effect, but only if the absolute value of the depolarization caused by CottonMouton effect is negligible. Quasiisotropic approximation may be used for the ionosphere under sufficiently high frequencies. In the framework of this approximation the anisotropy of a medium is considered as a small perturbation, and the evolution of the polarization ellipsis along a ray is described by a differential equation. This equation has been solved numerically with different values of parameters, characterizing propagation of a signal. The characteristic behavior of the magnitude of depolarization on range, ray direction and frequency is presented. Conclusions are drawn about the order of magnitude of the Faraday effect and the CottonMouton effect under different values of the aforementioned parameters.
Pages: 399-405
References
  1. Digital cellular telecommunications system (Phase 2+), General Packet Radio Service (GPRS), Mobile Station (MS) - Base Station System (BSS) interface, Radio Link Control/Medium Access Control (RLC/MAC) protocol, GSM 04.60 ver. 8.4.1 Release 1999.
  2. Kalden R., Meirick I., Meyer M. Wireless Internet Access Based on GPRS.Ericsson Research, Ericsson Eurolab Deutschland // IEEE Personal Communications. April 2000.
  3. Lindemann Ch., Thummler A. erformance analysis of the general packet radio service // Department of Computer Scienc., University of Dortmund. May 2002.
  4. Karagiannis G., Heijenk G. QoS in GPRS // Ericsson open report. December 2000.
  5. Staehle D., Leibnitz K., Tsipotis K. QoS of Internet Access with GPRS // University of Wurzburg. Institute of Computer Science. Research Report Series. January2002.