Wideband Characterization of Backscatter Channels: Derivations and Theoretical Background

Author

Arnitz, Daniel ; Muehlmann, Ulrich ; Witrisal, Klaus

Author_Institution

Signal Process. & Speech Commun. Lab., Graz Univ. of Technol., Graz, Austria

Volume

60

Issue

1

fYear

2012

Firstpage

257

Lastpage

266

Abstract

The wireless channel of backscatter radio systems is a two-way pinhole channel, created by the concatenation of two standard wireless channels. We present a method to calculate wideband channel parameters of backscatter channels based on the parameters of the constituent one-way channels. The focus is on characteristics that are vital for narrowband and wideband ranging, such as the K-factor w.r.t. the direct (line-of-sight) path and the RMS delay spread. The presented analyses include uncorrelated as well as correlated channel pairs and are thus valid for bistatic and monostatic antenna setups. We also show that the uncorrelated scattering (US) assumption holds for the backscatter channel provided that the constituent channels are US.

Keywords

backscatter; wireless channels; K-factor; RMS delay spread; backscatter channels; backscatter radio systems; monostatic antenna setups; one-way channels; two-way pinhole channel; uncorrelated scattering; wideband channel parameters; wideband characterization; wireless channels; Backscatter; Convolution; Correlation; Delay; Random variables; Shape; Wideband; Average excess delay; K-factor; RMS delay spread; backscatter channels; multipath channels; parameter approximation; wideband parameters;

fLanguage

English

Journal_Title

Antennas and Propagation, IEEE Transactions on

Publisher

ieee

ISSN

0018-926X

Type

jour

DOI

10.1109/TAP.2011.2167923

Filename

6018256