DocumentCode
3683425
Title
Measuring the reliability of 802.11 WiFi networks
Author
David Murray;Terry Koziniec;Michael Dixon;Kevin Lee
Author_Institution
School of Engineering and IT, Murdoch University, Perth, Australia
fYear
2015
Firstpage
233
Lastpage
238
Abstract
Over half of the transmission time in WiFi networks is dedicated to ensuring that errors are corrected or detected. Despite these mechanisms, many studies have concluded that frame error rates vary. An increased understanding of why frames are lost is a pragmatic approach to improving real world 802.11 throughput. The potential beneficiaries of this research, include rate control algorithms, Modulation and Coding Schemes, simulation models, frame size selection and 802.11 configuration guidelines. This paper presents a measurement study of the factors which correlate with packet loss in 802.11 WiFi. Both passive and active approaches were used to investigate how the frame size, modulation and coding scheme and airtime effect the loss rate. Overall, packet errors were high, but the size of frames were not a major determinant of the loss rate. The loss rate decreased with the airtime but at substantially lower rates than those suggested in simple packet error models. Future work will further try to isolate and investigate specific errors, such as head on collisions in the preamble.
Keywords
"Measurement uncertainty","IEEE 802.11 Standard","Atmospheric modeling","Propagation losses","Automatic repeat request","Ethics","OFDM"
Publisher
ieee
Conference_Titel
Internet Technologies and Applications (ITA), 2015
Print_ISBN
978-1-4799-8036-9
Type
conf
DOI
10.1109/ITechA.2015.7317401
Filename
7317401
Link To Document