Evaluating the effectiveness of the mandatory policy in a scientific repository: Castelo Branco Polytechnic Institute – Portugal, a case study
Rodrigues, A.M.
2014
Experimental assessment of RRM techniques in 5 GHz dense WiFi networks using REMs
Type
conferenceObject
Identifier
DIONÍSION, Rogério [et al.] (2108) - Experimental assessment of RRM techniques in 5 GHz dense WiFi networks using REMs. In IEEE Mediterranean Electrotechnical Conference,19, Marrakesh, 2018. [S.l.]: IEEE. p. 80-85
978-1-5386-3738-8
10.1109/MELCON.2018.8379072
Title
Experimental assessment of RRM techniques in 5 GHz dense WiFi networks using REMs
Subject
Interchannel interference;
Interpolation
Load management
Throughput
Wireless communication
Wireless fidelity
Interpolation
Load management
Throughput
Wireless communication
Wireless fidelity
Relation
info:eu-repo/grantAgreement/EC/H2020/645274/EU
Date
2018-06-29T11:59:47Z
2018-06-29T11:59:47Z
2018
2018-06-29T11:59:47Z
2018
Description
“© 2018 IEEE. Personal use of this material is permitted. Permission
from IEEE must be obtained for all other uses, in any current or future
media, including reprinting/republishing this material for advertising or
promotional purposes, creating new collective works, for resale or
redistribution to servers or lists, or reuse of any copyrighted
component of this work in other works.”
The increasing acceptance of WiFi has created unprecedented levels of congestion in the unlicensed frequency bands, especially in densely populated areas. This results mainly because of the unmanaged interference and uncoordinated op- eration between WiFi access points. Radio Environment Maps (REM) have been suggested as a support for coordination strategies that optimize the overall WiFi network performance. In this context, the main objective of this experiment is to assess the benefit of a coordinated management of radio resources in dense WiFi networks at 5 GHz band, using REMs for indoor scenarios. It was shown that REMs can detect the presence of interfering links on the network or coverage holes, and a suitable coordination strategy can use this information to reconfigure Access Points (AP) channel assignment and re-establish the client connection, at a cost of diminishing the aggregate throughput of the network. The technique of AP hand-off was tested to balance the load from one AP to another. Using REMs, the Radio Resource Management (RRM) strategy could reconfigure the network to optimize the client distribution among available APs. Although the aggregate throughput is lower after load balancing, the RRM could increase the throughput of the overloaded AP.
info:eu-repo/semantics/publishedVersion
The increasing acceptance of WiFi has created unprecedented levels of congestion in the unlicensed frequency bands, especially in densely populated areas. This results mainly because of the unmanaged interference and uncoordinated op- eration between WiFi access points. Radio Environment Maps (REM) have been suggested as a support for coordination strategies that optimize the overall WiFi network performance. In this context, the main objective of this experiment is to assess the benefit of a coordinated management of radio resources in dense WiFi networks at 5 GHz band, using REMs for indoor scenarios. It was shown that REMs can detect the presence of interfering links on the network or coverage holes, and a suitable coordination strategy can use this information to reconfigure Access Points (AP) channel assignment and re-establish the client connection, at a cost of diminishing the aggregate throughput of the network. The technique of AP hand-off was tested to balance the load from one AP to another. Using REMs, the Radio Resource Management (RRM) strategy could reconfigure the network to optimize the client distribution among available APs. Although the aggregate throughput is lower after load balancing, the RRM could increase the throughput of the overloaded AP.
info:eu-repo/semantics/publishedVersion
Access restrictions
openAccess
http://creativecommons.org/licenses/by-nd/4.0/
http://creativecommons.org/licenses/by-nd/4.0/
Language
eng
Comments
