dc.description.abstract | The IEEE 802.11e Enhanced Distributed Channel
Access (EDCA) protocol allows class based
differentiated Quality of service (QoS) in a wireless
local area network (WLAN). Different fixed values of
two certain parameters; contention window (CW) and
arbitration inter frame space number (AIFSN), ensure
higher or lower priority among this traffic classes,
administrating different QoS in terms of throughput,
delay, jitter etc. Previous simulation study illustrated,
superior throughput and delay performance achieved by
the highest priority voice traffic, compared to whatever
achieved by the lowest priority background traffic;
according to the deliberate design of the IEEE 802.11e
EDCA protocol.
In this paper, we present our simulation study
of the EDCA mechanism; augmented with the
International Telecommunication Union (ITU) indoor
propagation model, solidifying the outcome by ensuring
an indoor or semi-indoor setup like todays real world
WLAN system’s deployment scenarios. Simulation
study shows that a node accessing highest priority
traffic through an AP from a high distance at high data
rate not only suffers performance drops itself but also
severely bottlenecks the performance of other client
nodes accessing traffics with comparatively lower
priority, even if those nodes are at close proximity from
the AP. However, the negative impact over other traffic
accessing nodes are much lower but not fully negligible,
when a client node through the AP, tries to access lower
priority traffic from a large distance. Hence, the
intended service differentiation over different traffic
classes closely depends on whether all the client nodes
are at a close proximity from the AP. | en_US |