On the energy efficiency of fractional frequency reuse techniques

Azwan Mahmud; Zhangxian Lin; Khairi Ashour Hamdi

doi:10.1109/WCNC.2014.6952716

On the energy efficiency of fractional frequency reuse techniques

Azwan Mahmud, Zhangxian Lin, Khairi Ashour Hamdi

The University of Manchester

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

Abstract

Fractional frequency reuse (FFR) and soft frequency reuse (SFR) are efficient interference avoidance techniques for emerging OFDMA cellular networks in improving system performance by regularly reusing the frequencies. In this paper, we evaluate the energy efficiency (EE) in bits/J and EE per channel per cell in bits/J/Hz/cell for both the static FFR and SFR systems, in Nakagami-m fading and path-loss. In addition, we analyze the effect of fixed and variable cell-edge power amplification factor, α, on the FFR and SFR systems EE, the area spectral efficiency and the capacity. Our simulation and analytical results show that the SFR EE is higher than the FFR EE at low and medium α, whereas at very high α, the opposite is true. The observation is valid in fully-loaded cells, however, in partially-loaded cells, even at high α, SFR EE outperforms FFR EE.

Original language	English
Title of host publication	host publication
Publisher	IEEE
Pages	2348-2353
Number of pages	6
DOIs	https://doi.org/10.1109/WCNC.2014.6952716
Publication status	Published - 9 Apr 2014
Event	Wireless Communications and Networking Conference (WCNC) - Istanbul, Turkey Duration: 6 Apr 2014 → 9 Apr 2014

Conference

Conference	Wireless Communications and Networking Conference (WCNC)
City	Istanbul, Turkey
Period	6/04/14 → 9/04/14

Keywords

Nakagami channels OFDM modulation amplification cellular radio energy conservation frequency allocation frequency division multiple access interference suppression radio networks radiofrequency interference telecommunication power management

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1109/WCNC.2014.6952716

Cite this

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title = "On the energy efficiency of fractional frequency reuse techniques",

abstract = "Fractional frequency reuse (FFR) and soft frequency reuse (SFR) are efficient interference avoidance techniques for emerging OFDMA cellular networks in improving system performance by regularly reusing the frequencies. In this paper, we evaluate the energy efficiency (EE) in bits/J and EE per channel per cell in bits/J/Hz/cell for both the static FFR and SFR systems, in Nakagami-m fading and path-loss. In addition, we analyze the effect of fixed and variable cell-edge power amplification factor, α, on the FFR and SFR systems EE, the area spectral efficiency and the capacity. Our simulation and analytical results show that the SFR EE is higher than the FFR EE at low and medium α, whereas at very high α, the opposite is true. The observation is valid in fully-loaded cells, however, in partially-loaded cells, even at high α, SFR EE outperforms FFR EE.",

keywords = "Nakagami channels OFDM modulation amplification cellular radio energy conservation frequency allocation frequency division multiple access interference suppression radio networks radiofrequency interference telecommunication power management",

author = "Azwan Mahmud and Zhangxian Lin and Hamdi, {Khairi Ashour}",

year = "2014",

month = apr,

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doi = "10.1109/WCNC.2014.6952716",

language = "English",

pages = "2348--2353",

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address = "United States",

note = "Wireless Communications and Networking Conference (WCNC) ; Conference date: 06-04-2014 Through 09-04-2014",

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TY - GEN

T1 - On the energy efficiency of fractional frequency reuse techniques

AU - Mahmud, Azwan

AU - Lin, Zhangxian

AU - Hamdi, Khairi Ashour

PY - 2014/4/9

Y1 - 2014/4/9

N2 - Fractional frequency reuse (FFR) and soft frequency reuse (SFR) are efficient interference avoidance techniques for emerging OFDMA cellular networks in improving system performance by regularly reusing the frequencies. In this paper, we evaluate the energy efficiency (EE) in bits/J and EE per channel per cell in bits/J/Hz/cell for both the static FFR and SFR systems, in Nakagami-m fading and path-loss. In addition, we analyze the effect of fixed and variable cell-edge power amplification factor, α, on the FFR and SFR systems EE, the area spectral efficiency and the capacity. Our simulation and analytical results show that the SFR EE is higher than the FFR EE at low and medium α, whereas at very high α, the opposite is true. The observation is valid in fully-loaded cells, however, in partially-loaded cells, even at high α, SFR EE outperforms FFR EE.

AB - Fractional frequency reuse (FFR) and soft frequency reuse (SFR) are efficient interference avoidance techniques for emerging OFDMA cellular networks in improving system performance by regularly reusing the frequencies. In this paper, we evaluate the energy efficiency (EE) in bits/J and EE per channel per cell in bits/J/Hz/cell for both the static FFR and SFR systems, in Nakagami-m fading and path-loss. In addition, we analyze the effect of fixed and variable cell-edge power amplification factor, α, on the FFR and SFR systems EE, the area spectral efficiency and the capacity. Our simulation and analytical results show that the SFR EE is higher than the FFR EE at low and medium α, whereas at very high α, the opposite is true. The observation is valid in fully-loaded cells, however, in partially-loaded cells, even at high α, SFR EE outperforms FFR EE.

KW - Nakagami channels OFDM modulation amplification cellular radio energy conservation frequency allocation frequency division multiple access interference suppression radio networks radiofrequency interference telecommunication power management

U2 - 10.1109/WCNC.2014.6952716

DO - 10.1109/WCNC.2014.6952716

M3 - Conference contribution

SP - 2348

EP - 2353

BT - host publication

PB - IEEE

T2 - Wireless Communications and Networking Conference (WCNC)

Y2 - 6 April 2014 through 9 April 2014

ER -

On the energy efficiency of fractional frequency reuse techniques

Abstract

Conference

Keywords

UN SDGs

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