Prace Naukowe Uniwersytetu Ekonomicznego We Wroclawiu, 2009
As Voice over IP (VoIP) becomes a reality, service providers will be able to offer the service to... more As Voice over IP (VoIP) becomes a reality, service providers will be able to offer the service to remote and over populated areas that currently are not or are only partially reached by available Public Switched Telephone Network (PSTN). The combination of wireless mesh networks (WMNs) with VoIP is an attractive solution for enterprise infrastructures; presenting availability and reduced cost for both consumers and service providers. The large number of clients in WMNs leads to increased number of concurrent flows. However, only a handful of these flows reaches their destination while still within the quality of service (QoS) bound for VoIP. This performance degradation can be attributed to protocol overhead, packet collision and interferences. This paper introduces VoIP over WMNs and uses a link based packet aggregation scheme to improve VoIP performance in IEEE 802.11 based WMNs operating under distributed coordinate function (DCF). Simulation results show that the proposed aggregation scheme increases the number of supported flow while also reducing endto-end delay, jitter, and packet loss of VoIP in WMNs.
Prace Naukowe Uniwersytetu Ekonomicznego We Wroclawiu, 2009
As Voice over IP (VoIP) becomes a reality, service providers will be able to offer the service to... more As Voice over IP (VoIP) becomes a reality, service providers will be able to offer the service to remote and over populated areas that currently are not or are only partially reached by available Public Switched Telephone Network (PSTN). The combination of wireless mesh networks (WMNs) with VoIP is an attractive solution for enterprise infrastructures; presenting availability and reduced cost for both consumers and service providers. The large number of clients in WMNs leads to increased number of concurrent flows. However, only a handful of these flows reaches their destination while still within the quality of service (QoS) bound for VoIP. This performance degradation can be attributed to protocol overhead, packet collision and interferences. This paper introduces VoIP over WMNs and uses a link based packet aggregation scheme to improve VoIP performance in IEEE 802.11 based WMNs operating under distributed coordinate function (DCF). Simulation results show that the proposed aggregation scheme increases the number of supported flow while also reducing endto-end delay, jitter, and packet loss of VoIP in WMNs.
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Papers by Adam Plachciak