Nearly optimal resource allocation for downlink OFDMA in 2-D cellular networks

Nassar Ksairi; Pascal Bianchi; Philippe Ciblat

doi:10.1109/TWC.2011.051311.100393

Nearly optimal resource allocation for downlink OFDMA in 2-D cellular networks

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

Abstract

In this paper, we propose a resource allocation algorithm for the downlink of sectorized two-dimensional (2-D) OFDMA cellular networks assuming statistical Channel State Information (CSI) and fractional frequency reuse. The proposed algorithm can be implemented in a distributed fashion without any central controlling units. Its performance is analyzed assuming fast fading Rayleigh channels and Gaussian distributed multicell interference. We show that the transmit power of this simple algorithm tends, as the number of users grows to infinity, to the same limit as the minimal power required to satisfy all users' rate requirements i.e., the proposed resource allocation algorithm is asymptotically optimal. As a byproduct of this asymptotic analysis, we characterize a relevant value of the reuse factor that only depends on an average state of the network.

Original language	English
Article number	5773457
Pages (from-to)	2101-2115
Number of pages	15
Journal	IEEE Transactions on Wireless Communications
Volume	10
Issue number	7
DOIs	https://doi.org/10.1109/TWC.2011.051311.100393
Publication status	Published - 1 Jan 2011
Externally published	Yes

Keywords

OFDM
OFDMA
best response dynamic
distributed resource allocation
fractional frequency reuse
multicell
noncooperative games
resource allocation

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10.1109/TWC.2011.051311.100393

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title = "Nearly optimal resource allocation for downlink OFDMA in 2-D cellular networks",

abstract = "In this paper, we propose a resource allocation algorithm for the downlink of sectorized two-dimensional (2-D) OFDMA cellular networks assuming statistical Channel State Information (CSI) and fractional frequency reuse. The proposed algorithm can be implemented in a distributed fashion without any central controlling units. Its performance is analyzed assuming fast fading Rayleigh channels and Gaussian distributed multicell interference. We show that the transmit power of this simple algorithm tends, as the number of users grows to infinity, to the same limit as the minimal power required to satisfy all users' rate requirements i.e., the proposed resource allocation algorithm is asymptotically optimal. As a byproduct of this asymptotic analysis, we characterize a relevant value of the reuse factor that only depends on an average state of the network.",

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AU - Ksairi, Nassar

AU - Bianchi, Pascal

AU - Ciblat, Philippe

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N2 - In this paper, we propose a resource allocation algorithm for the downlink of sectorized two-dimensional (2-D) OFDMA cellular networks assuming statistical Channel State Information (CSI) and fractional frequency reuse. The proposed algorithm can be implemented in a distributed fashion without any central controlling units. Its performance is analyzed assuming fast fading Rayleigh channels and Gaussian distributed multicell interference. We show that the transmit power of this simple algorithm tends, as the number of users grows to infinity, to the same limit as the minimal power required to satisfy all users' rate requirements i.e., the proposed resource allocation algorithm is asymptotically optimal. As a byproduct of this asymptotic analysis, we characterize a relevant value of the reuse factor that only depends on an average state of the network.

AB - In this paper, we propose a resource allocation algorithm for the downlink of sectorized two-dimensional (2-D) OFDMA cellular networks assuming statistical Channel State Information (CSI) and fractional frequency reuse. The proposed algorithm can be implemented in a distributed fashion without any central controlling units. Its performance is analyzed assuming fast fading Rayleigh channels and Gaussian distributed multicell interference. We show that the transmit power of this simple algorithm tends, as the number of users grows to infinity, to the same limit as the minimal power required to satisfy all users' rate requirements i.e., the proposed resource allocation algorithm is asymptotically optimal. As a byproduct of this asymptotic analysis, we characterize a relevant value of the reuse factor that only depends on an average state of the network.

KW - OFDM

KW - OFDMA

KW - best response dynamic

KW - distributed resource allocation

KW - fractional frequency reuse

KW - multicell

KW - noncooperative games

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JF - IEEE Transactions on Wireless Communications

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Nearly optimal resource allocation for downlink OFDMA in 2-D cellular networks

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