Performance analysis of cyclically prefixed single-carrier transmissions with outdated opportunistic user selection

Kyeong Jin Kim; Theodoros A. Tsiftsis

doi:10.1109/LSP.2010.2060330

Performance analysis of cyclically prefixed single-carrier transmissions with outdated opportunistic user selection

Kyeong Jin Kim, Theodoros A. Tsiftsis

Department of Electrical and Computer Engineering

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

The outage probability and the symbol error rate (SER) with outdated erroneous opportunistic scheduling over the cyclically prefixed single-carrier downlink transmission, are analyzed. In the user equipment, the QR decomposition-based time domain equalization is employed. Based on this proposed receiver, the effective signal-to-noise ratio (ESNR) and its maximum ESNR are derived. By using the statistical properties of these defined ESNRs, closed-form expressions for the outage probability and the upper bound SER, are derived. Monte Carlo simulations verified the analytical expressions and the outage diversity gain.

Original language	English
Article number	5518372
Pages (from-to)	847-850
Number of pages	4
Journal	IEEE Signal Processing Letters
Volume	17
Issue number	10
DOIs	https://doi.org/10.1109/LSP.2010.2060330
Publication status	Published - Aug 24 2010

Keywords

Cyclically prefixed (CP) single-carrier (SC) transmission
outage diversity gain
outage probability
outdated erroneous opportunistic scheduling
symbol error rate (SER)

ASJC Scopus subject areas

Signal Processing
Electrical and Electronic Engineering
Applied Mathematics

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abstract = "The outage probability and the symbol error rate (SER) with outdated erroneous opportunistic scheduling over the cyclically prefixed single-carrier downlink transmission, are analyzed. In the user equipment, the QR decomposition-based time domain equalization is employed. Based on this proposed receiver, the effective signal-to-noise ratio (ESNR) and its maximum ESNR are derived. By using the statistical properties of these defined ESNRs, closed-form expressions for the outage probability and the upper bound SER, are derived. Monte Carlo simulations verified the analytical expressions and the outage diversity gain.",

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