IEEE 802.11 is the most popular standard for WLAN networks. It offers different physical transmission
rates. This paper focuses on this multi transmission rate of 802.11 WLANs and its effect on speech quality.
In non-adaptive systems, when the physical layer switches from a higher transmission rate to a lower one,
different than the one that the VoIP flow needs, the switching may result in congestion, high delay and
packet loss, and consequently speech quality degradation. However, there are some algorithms that adapt
the transmission parameters according to the channel conditions. In this study we demonstrate how
choosing parameter (different codec and packet size) can affect the voice quality, network delay and packet
loss. Further, this study presents a comparison between adaptive and non-adaptive methods. The adaptive
method has also been evaluated for different congestion level from perceived speech quality point of view.
%0 Journal Article
%1 noauthororeditor
%A Gurrapu, Shreekant
%A Mehta, Saurabh
%A Panbude, Shraddha
%D 2017
%J International Journal of Computational Science and Information Technology (IJCSITY)
%K 802.11 Adaptive Codec IEEE Multi-Rate QoS VoIP WLAN algorithm control interval packetization rate
%N 1
%P 1-17
%R 10.5121/ijcsity.2017.5101
%T Case Study for Performance Analysis of VOIP Codecs in Non-Mobility Scenarios
%U http://aircconline.com/ijcsity/V5N1/5117ijcsity01.pdf
%V 5
%X IEEE 802.11 is the most popular standard for WLAN networks. It offers different physical transmission
rates. This paper focuses on this multi transmission rate of 802.11 WLANs and its effect on speech quality.
In non-adaptive systems, when the physical layer switches from a higher transmission rate to a lower one,
different than the one that the VoIP flow needs, the switching may result in congestion, high delay and
packet loss, and consequently speech quality degradation. However, there are some algorithms that adapt
the transmission parameters according to the channel conditions. In this study we demonstrate how
choosing parameter (different codec and packet size) can affect the voice quality, network delay and packet
loss. Further, this study presents a comparison between adaptive and non-adaptive methods. The adaptive
method has also been evaluated for different congestion level from perceived speech quality point of view.
@article{noauthororeditor,
abstract = {IEEE 802.11 is the most popular standard for WLAN networks. It offers different physical transmission
rates. This paper focuses on this multi transmission rate of 802.11 WLANs and its effect on speech quality.
In non-adaptive systems, when the physical layer switches from a higher transmission rate to a lower one,
different than the one that the VoIP flow needs, the switching may result in congestion, high delay and
packet loss, and consequently speech quality degradation. However, there are some algorithms that adapt
the transmission parameters according to the channel conditions. In this study we demonstrate how
choosing parameter (different codec and packet size) can affect the voice quality, network delay and packet
loss. Further, this study presents a comparison between adaptive and non-adaptive methods. The adaptive
method has also been evaluated for different congestion level from perceived speech quality point of view. },
added-at = {2018-02-13T10:00:59.000+0100},
author = {Gurrapu, Shreekant and Mehta, Saurabh and Panbude, Shraddha},
biburl = {https://www.bibsonomy.org/bibtex/22695570bfa0fdecfb1b456235d832851/anderson_sam},
doi = {10.5121/ijcsity.2017.5101},
interhash = {8996fb277aab397eee080a61c9392587},
intrahash = {2695570bfa0fdecfb1b456235d832851},
issn = {2320-7442(Online);2320 - 8457(Print)},
journal = {International Journal of Computational Science and Information Technology (IJCSITY)},
keywords = {802.11 Adaptive Codec IEEE Multi-Rate QoS VoIP WLAN algorithm control interval packetization rate},
language = {English},
month = feb,
number = 1,
pages = {1-17},
timestamp = {2018-02-13T10:00:59.000+0100},
title = {Case Study for Performance Analysis of VOIP Codecs in Non-Mobility Scenarios},
url = {http://aircconline.com/ijcsity/V5N1/5117ijcsity01.pdf},
volume = 5,
year = 2017
}