A comparison of multiple input radio channel models using geometric and stochastic methods

Author

Gatzoulis, L. ; Povey, G.J.R.

Author_Institution

Elektrobit Ltd., UK

fYear

2001

fDate

2001

Firstpage

129

Lastpage

133

Abstract

We present two types of multiple input channel models that have been implemented: a geometric model and a stochastic model. We consider the relative merits and limitations of these models. There are a number of factors that will indicate whether geometric or stochastic multichannel models are appropriate for a particular test scenario. The advantage of a geometric model is that all of the factors used to characterise the channel (e.g. Doppler spread, delay spread, angle of arrival, etc.) are correlated. The geometric model, by its physical ray tracing nature, automatically implements these artefacts of the signal and can be used in indoor picocells and outdoor macrocells without the need for empirical data. The disadvantage of the geometric model is that it is a simplification of the physical world, and so some of the statistical detail is likely to be lost

Keywords

Rayleigh channels; Rician channels; cellular radio; electromagnetic wave scattering; indoor radio; radiowave propagation; ray tracing; stochastic processes; telecommunication channels; Doppler spread; Rayleigh fading; Rician fading; angle of arrival; correlated channels; delay spread; geometric methods; geometric model; indoor picocells; multiple input radio channel models; outdoor macrocells; ray tracing; scatterers; stochastic methods; stochastic model;

fLanguage

English

Publisher

iet

Conference_Titel

3G Mobile Communication Technologies, 2001. Second International Conference on (Conf. Publ. No. 477)

Conference_Location

London

ISSN

0537-9989

Print_ISBN

0-85296-731-4

Type

conf

DOI

10.1049/cp:20010026

Filename

923523