An Accurate Hardware Sum-of-Cisoids Fading Channel Simulator for Isotropic and Non-Isotropic Mobile Radio Environments

An Accurate Hardware Sum-of-Cisoids Fading Channel Simulator for Isotropic and Non-Isotropic Mobile Radio Environments

The rapid technological development in the field of wireless communications calls for devices capable of reproducing and simulating the behavior of the channel under realistic propagation conditions. This paper presents a hardware fading channel simulator that is able to generate stochastic processe...

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Main Authors: L. Vela-Garcia, J. Vázquez Castillo, R. Parra-Michel, Matthias Pätzold
Format: Article
Language:English
Published: Hindawi Limited 2012-01-01
Series:Modelling and Simulation in Engineering
Online Access:http://dx.doi.org/10.1155/2012/542198
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spelling doaj-87180c2f1fda44039f1fd8e07ed2ad082020-11-25T00:08:12ZengHindawi LimitedModelling and Simulation in Engineering1687-55911687-56052012-01-01201210.1155/2012/542198542198An Accurate Hardware Sum-of-Cisoids Fading Channel Simulator for Isotropic and Non-Isotropic Mobile Radio EnvironmentsL. Vela-Garcia0J. Vázquez Castillo1R. Parra-Michel2Matthias Pätzold3Department of Telecommunications, CINVESTAV I.P.N., 45019 Zapopan, JAL, MexicoDepartment of Telecommunications, CINVESTAV I.P.N., 45019 Zapopan, JAL, MexicoDepartment of Telecommunications, CINVESTAV I.P.N., 45019 Zapopan, JAL, MexicoFaculty of Engineering and Science, University of Agder, P.O. Box 509, 4898 Grimstad, NorwayThe rapid technological development in the field of wireless communications calls for devices capable of reproducing and simulating the behavior of the channel under realistic propagation conditions. This paper presents a hardware fading channel simulator that is able to generate stochastic processes characterized by symmetrical and asymmetrical Doppler power spectral densities (PSDs) depending on the assumption of isotropic or non-isotropic scattering. The concept of the proposed hardware simulator is based on an implementation of the sum-of-cisoids (SOC) method. The hardware simulator is capable of handling any configuration of the cisoid's amplitudes, frequencies, and phases. Each of the cisoids that constitutes the SOC model is implemented using a piecewise polynomial approximation technique. The investigation of the higher-order statistics of the generated fading processes, like the level-crossing rate (LCR) and the average duration of fades (ADF), shows that our design is able to reproduce accurately the key features of realistic channel models that are considered as candidates for the latest wireless communication standards.http://dx.doi.org/10.1155/2012/542198
collection DOAJ
language English
format Article
sources DOAJ
author L. Vela-Garcia
J. Vázquez Castillo
R. Parra-Michel
Matthias Pätzold
spellingShingle L. Vela-Garcia
J. Vázquez Castillo
R. Parra-Michel
Matthias Pätzold
An Accurate Hardware Sum-of-Cisoids Fading Channel Simulator for Isotropic and Non-Isotropic Mobile Radio Environments
Modelling and Simulation in Engineering
author_facet L. Vela-Garcia
J. Vázquez Castillo
R. Parra-Michel
Matthias Pätzold
author_sort L. Vela-Garcia
title An Accurate Hardware Sum-of-Cisoids Fading Channel Simulator for Isotropic and Non-Isotropic Mobile Radio Environments
title_short An Accurate Hardware Sum-of-Cisoids Fading Channel Simulator for Isotropic and Non-Isotropic Mobile Radio Environments
title_full An Accurate Hardware Sum-of-Cisoids Fading Channel Simulator for Isotropic and Non-Isotropic Mobile Radio Environments
title_fullStr An Accurate Hardware Sum-of-Cisoids Fading Channel Simulator for Isotropic and Non-Isotropic Mobile Radio Environments
title_full_unstemmed An Accurate Hardware Sum-of-Cisoids Fading Channel Simulator for Isotropic and Non-Isotropic Mobile Radio Environments
title_sort accurate hardware sum-of-cisoids fading channel simulator for isotropic and non-isotropic mobile radio environments
publisher Hindawi Limited
series Modelling and Simulation in Engineering
issn 1687-5591
1687-5605
publishDate 2012-01-01
description The rapid technological development in the field of wireless communications calls for devices capable of reproducing and simulating the behavior of the channel under realistic propagation conditions. This paper presents a hardware fading channel simulator that is able to generate stochastic processes characterized by symmetrical and asymmetrical Doppler power spectral densities (PSDs) depending on the assumption of isotropic or non-isotropic scattering. The concept of the proposed hardware simulator is based on an implementation of the sum-of-cisoids (SOC) method. The hardware simulator is capable of handling any configuration of the cisoid's amplitudes, frequencies, and phases. Each of the cisoids that constitutes the SOC model is implemented using a piecewise polynomial approximation technique. The investigation of the higher-order statistics of the generated fading processes, like the level-crossing rate (LCR) and the average duration of fades (ADF), shows that our design is able to reproduce accurately the key features of realistic channel models that are considered as candidates for the latest wireless communication standards.
url http://dx.doi.org/10.1155/2012/542198
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