Average outage and non-outage duration of selective decode-and-forward relaying

Zlatanov N, Schober R, Hadzi-Velkov Z, Karagiannidis G (2011)


Publication Type: Conference contribution

Publication year: 2011

Pages Range: 94-97

Conference Proceedings Title: 12th Canadian Workshop on Information Theory, CWIT 2011

Event location: Kelowna CA

ISBN: 9781457707438

DOI: 10.1109/CWIT.2011.5872132

Abstract

In this paper, assuming transmission with fixed rate and fixed power, we derive the average duration of capacity outage and non-outage events of selective decode-and-forward relaying with repetition coding over slow Rayleigh fading channels. Furthermore, we develop high signal-to-noise ratio (SNR) approximations for both durations which provide significant insight into the impact of various system and channel parameters. For high SNR, on a double logarithmic scale, both the average outage duration (AOD) and the average non-outage duration (ANOD) become straight lines when plotted as functions of the SNR. However, while the slope of the ANOD improves with increasing diversity order, the slope of the AOD is 1/2 independent of the diversity order. © 2011 IEEE.

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APA:

Zlatanov, N., Schober, R., Hadzi-Velkov, Z., & Karagiannidis, G. (2011). Average outage and non-outage duration of selective decode-and-forward relaying. In 12th Canadian Workshop on Information Theory, CWIT 2011 (pp. 94-97). Kelowna, CA.

MLA:

Zlatanov, Nikola, et al. "Average outage and non-outage duration of selective decode-and-forward relaying." Proceedings of the 12th Canadian Workshop on Information Theory, CWIT 2011, Kelowna 2011. 94-97.

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