Dual-hop DF relaying systems with multiple interferers and subject to arbitrary Nakagami-m fading

D. B. Da Costa; M. D. Yacoub

doi:10.1049/el.2011.1668

Dual-hop DF relaying systems with multiple interferers and subject to arbitrary Nakagami-m fading

D. B. Da Costa^*, M. D. Yacoub

^*Corresponding author for this work

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

15 Scopus citations

Abstract

The outage performance of dual-hop decode-and-forward relaying systems with multiple co-channel interferers at both nodes, namely relay and destination, and subject to arbitrary Nakagami-m fading is investigated. More specifically, an indeed highly accurate closed-form approximate expression for the end-to-end outage probability is derived that is simple to calculate and yields results instantaneously independently of the number of interferers, thus circumventing the intricacy and the computationally inefficiency of the exact formulation. Simulation results are shown that corroborate the tightness of the proposed approximations. It is noteworthy that the results apply to general operating scenarios with distinct, non-integer Nakagami-m fading parameters and unequal average fading powers between hops.

Original language	English
Pages (from-to)	999-1001
Number of pages	3
Journal	Electronics Letters
Volume	47
Issue number	17
DOIs	https://doi.org/10.1049/el.2011.1668
State	Published - 18 Aug 2011
Externally published	Yes

ASJC Scopus subject areas

Electrical and Electronic Engineering

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10.1049/el.2011.1668

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title = "Dual-hop DF relaying systems with multiple interferers and subject to arbitrary Nakagami-m fading",

abstract = "The outage performance of dual-hop decode-and-forward relaying systems with multiple co-channel interferers at both nodes, namely relay and destination, and subject to arbitrary Nakagami-m fading is investigated. More specifically, an indeed highly accurate closed-form approximate expression for the end-to-end outage probability is derived that is simple to calculate and yields results instantaneously independently of the number of interferers, thus circumventing the intricacy and the computationally inefficiency of the exact formulation. Simulation results are shown that corroborate the tightness of the proposed approximations. It is noteworthy that the results apply to general operating scenarios with distinct, non-integer Nakagami-m fading parameters and unequal average fading powers between hops.",

author = "\{Da Costa\}, \{D. B.\} and Yacoub, \{M. D.\}",

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T1 - Dual-hop DF relaying systems with multiple interferers and subject to arbitrary Nakagami-m fading

AU - Da Costa, D. B.

AU - Yacoub, M. D.

PY - 2011/8/18

Y1 - 2011/8/18

N2 - The outage performance of dual-hop decode-and-forward relaying systems with multiple co-channel interferers at both nodes, namely relay and destination, and subject to arbitrary Nakagami-m fading is investigated. More specifically, an indeed highly accurate closed-form approximate expression for the end-to-end outage probability is derived that is simple to calculate and yields results instantaneously independently of the number of interferers, thus circumventing the intricacy and the computationally inefficiency of the exact formulation. Simulation results are shown that corroborate the tightness of the proposed approximations. It is noteworthy that the results apply to general operating scenarios with distinct, non-integer Nakagami-m fading parameters and unequal average fading powers between hops.

AB - The outage performance of dual-hop decode-and-forward relaying systems with multiple co-channel interferers at both nodes, namely relay and destination, and subject to arbitrary Nakagami-m fading is investigated. More specifically, an indeed highly accurate closed-form approximate expression for the end-to-end outage probability is derived that is simple to calculate and yields results instantaneously independently of the number of interferers, thus circumventing the intricacy and the computationally inefficiency of the exact formulation. Simulation results are shown that corroborate the tightness of the proposed approximations. It is noteworthy that the results apply to general operating scenarios with distinct, non-integer Nakagami-m fading parameters and unequal average fading powers between hops.

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JO - Electronics Letters

JF - Electronics Letters

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ER -

Dual-hop DF relaying systems with multiple interferers and subject to arbitrary Nakagami-m fading

Abstract

ASJC Scopus subject areas

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