Design of a cell selection mechanism to mitigate interference for cell-edge macro users in femto-macro heterogeneous network

The Femto-Macro heterogeneous network is a promising solution to improve the network capacity and coverage in mobile network. However interference may rise due to femtocell deployment nearby to macro user equipment (MUE) within macrocell network coverage. Femtocell offers main priority in resource a...

Full description

Saved in:
Bibliographic Details
Main Authors: Abdullah, S., Din, N.M., Elias, S.J., Khang, A.W.Y., Din, R., Bakar, R.
Format: Article
Language:English
Published: 2020
Tags: Add Tag
No Tags, Be the first to tag this record!
id my.uniten.dspace-13118
record_format dspace
spelling my.uniten.dspace-131182020-07-06T08:38:46Z Design of a cell selection mechanism to mitigate interference for cell-edge macro users in femto-macro heterogeneous network Abdullah, S. Din, N.M. Elias, S.J. Khang, A.W.Y. Din, R. Bakar, R. The Femto-Macro heterogeneous network is a promising solution to improve the network capacity and coverage in mobile network. However interference may rise due to femtocell deployment nearby to macro user equipment (MUE) within macrocell network coverage. Femtocell offers main priority in resource allocation to its subscribed femto user equipment (FUE) rather than unsubscribed MUE. MUEs will suffer severe interference when they are placed near or within the femtocell area range especially at the cell edge. This phenomenon occurs due to the distance is far from its serving macro base station (MBS) to receive good signal strength. This paper presents a design of cell selection scheme for cell-edge MUE to select an optimal femto base station (FBS) as its primary serving cell in physical resource block allocation. In this study, the proposed cell selection consists of four main elements: measuring the closest FBS distance, Signal to Interference-plus-Noise-Ratio (SINR), physical resource block (PRB) availability and node density level for the selected base station. The main goal is to ensure cell-edge MUE has priority fairly with FUE in physical resource block allocation per user bandwidth demand to mitigate interference. Hence, the cell-edge MUE has good experienced on receiving an adequate user data rate to improve higher network throughput. © 2019 Institute of Advanced Engineering and Science. 2020-02-03T03:30:29Z 2020-02-03T03:30:29Z 2019 Article 10.11591/eei.v8i1.1433 en
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
language English
description The Femto-Macro heterogeneous network is a promising solution to improve the network capacity and coverage in mobile network. However interference may rise due to femtocell deployment nearby to macro user equipment (MUE) within macrocell network coverage. Femtocell offers main priority in resource allocation to its subscribed femto user equipment (FUE) rather than unsubscribed MUE. MUEs will suffer severe interference when they are placed near or within the femtocell area range especially at the cell edge. This phenomenon occurs due to the distance is far from its serving macro base station (MBS) to receive good signal strength. This paper presents a design of cell selection scheme for cell-edge MUE to select an optimal femto base station (FBS) as its primary serving cell in physical resource block allocation. In this study, the proposed cell selection consists of four main elements: measuring the closest FBS distance, Signal to Interference-plus-Noise-Ratio (SINR), physical resource block (PRB) availability and node density level for the selected base station. The main goal is to ensure cell-edge MUE has priority fairly with FUE in physical resource block allocation per user bandwidth demand to mitigate interference. Hence, the cell-edge MUE has good experienced on receiving an adequate user data rate to improve higher network throughput. © 2019 Institute of Advanced Engineering and Science.
format Article
author Abdullah, S.
Din, N.M.
Elias, S.J.
Khang, A.W.Y.
Din, R.
Bakar, R.
spellingShingle Abdullah, S.
Din, N.M.
Elias, S.J.
Khang, A.W.Y.
Din, R.
Bakar, R.
Design of a cell selection mechanism to mitigate interference for cell-edge macro users in femto-macro heterogeneous network
author_facet Abdullah, S.
Din, N.M.
Elias, S.J.
Khang, A.W.Y.
Din, R.
Bakar, R.
author_sort Abdullah, S.
title Design of a cell selection mechanism to mitigate interference for cell-edge macro users in femto-macro heterogeneous network
title_short Design of a cell selection mechanism to mitigate interference for cell-edge macro users in femto-macro heterogeneous network
title_full Design of a cell selection mechanism to mitigate interference for cell-edge macro users in femto-macro heterogeneous network
title_fullStr Design of a cell selection mechanism to mitigate interference for cell-edge macro users in femto-macro heterogeneous network
title_full_unstemmed Design of a cell selection mechanism to mitigate interference for cell-edge macro users in femto-macro heterogeneous network
title_sort design of a cell selection mechanism to mitigate interference for cell-edge macro users in femto-macro heterogeneous network
publishDate 2020
_version_ 1672614207615401984
score 13.214268