ChinaCom2009-Wireless Communications and Networking Symposium

Research Article

SINR Analysis of BPSK UWB Considering IPI and ICI in IEEE Channel Models and Its Application

Cite
BibTeX Plain Text
  • @INPROCEEDINGS{10.1109/CHINACOM.2009.5339755,
    author={Bo Zhao and Yunfei Chen},
    title={SINR Analysis of BPSK UWB Considering IPI and ICI in IEEE Channel Models and Its Application},
    proceedings={ChinaCom2009-Wireless Communications and Networking Symposium},
    publisher={IEEE},
    proceedings_a={CHINACOM2009-WCN},
    year={2009},
    month={11},
    keywords={Average power integration interval signal-tointerference- plus-noise ratio ultra-wide bandwidth},
    doi={10.1109/CHINACOM.2009.5339755}
}
  • Bo Zhao
    Yunfei Chen
    Year: 2009
    SINR Analysis of BPSK UWB Considering IPI and ICI in IEEE Channel Models and Its Application
    CHINACOM2009-WCN
    IEEE
    DOI: 10.1109/CHINACOM.2009.5339755
Bo Zhao1,*, Yunfei Chen1,*
  • 1: School of Engineering, University of Warwick, Coventry, U.K.
*Contact email: Bo.Zhao@warwick.ac.uk, Yunfei.Chen@warwick.ac.uk

Abstract

Closed-form expressions for the output signal-tointerference- plus-noise ratio (SINR) in ultra-wideband (UWB) receivers are derived for the IEEE channel models. Unlike results in the literature where only the inter-symbol and/or multipleaccess interferences are considered, the derivation in this paper also takes into account inter-path and inter-chip interferences. Effects of the spreading gain and the pulse duration on the output SINR are examined. As an application, the optimal integration interval that maximizes the output SINR for a transmitted reference UWB receiver is studied. .

Keywords
Average power integration interval signal-tointerference- plus-noise ratio ultra-wide bandwidth
Published
2009-11-20
Publisher
IEEE
Modified
2010-05-16
http://dx.doi.org/10.1109/CHINACOM.2009.5339755
Copyright © 2009–2024 IEEE
EAI Logo

About EAI

Community

Publish with EAI