VoIP Capacity Allocation Using an Adaptive Voice Packetization Server in IEEE 802.11 WLANs

WLAN VoIP capacity is known to be very low due to the effects of overheads at various protocol layers. An IEEE 802.11b access point (AP) operating at 11 Mbps for example, can support only about 12 G.711 voice connections with a 20 ms packetization interval. These effects can be mitigated by taking i...

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Bibliographic Details
Published in2007 IEEE International Conference on Communications pp. 1624 - 1629
Main Authors Kholaif, A.M., Todd, T.D.
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.06.2007
Subjects
Access protocols
Codecs
Communications Society
Delay
Heuristic algorithms
Leg
Network servers
Performance evaluation
Testing
Wireless LAN
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Summary:WLAN VoIP capacity is known to be very low due to the effects of overheads at various protocol layers. An IEEE 802.11b access point (AP) operating at 11 Mbps for example, can support only about 12 G.711 voice connections with a 20 ms packetization interval. These effects can be mitigated by taking into account the available latency margin of the call and using it in the VoIP parameter selection. In this paper we propose the use of an adaptive voice packetization server (AVP-RTS) which splits the RTP VoIP connection into two legs. In this way each end of the call is negotiated separately and the server can allocate the available latency margin (and the ensuing capacity gain) asymmetrically across the call. We propose new algorithms for performing this capacity assignment and compare them to the conventional voice packetization scheme. Results from extensive simulations show that by using the AVP-RTS server we can significantly improve the multi-AP VoIP capacity for certain typical IEEE 802.11 situations.
ISBN:9781424403530
1424403537
ISSN:1550-3607
1938-1883
DOI:10.1109/ICC.2007.272