Analysis of VoIP performance - Simon Fraser University · Quality of Service: ¾Jitter: The...
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ENSC427: Communication Networks4 7Spring 2014
Final Project Presentationhtt // f / d /
Analysis of VoIP performance
http://www.sfu.ca/~dnamvar/
LAN vs.WANWLAN vs. WWAN
akadkhod@sfu ca 301129632 Anita [email protected], 301129632 Anita [email protected], 301137361 Yalda [email protected], 301138961 Darya Namvar
Team # 2
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R d Road map:
Introduction /Motivation/
QoS for VoIPQoS for VoIP
d d d d fProject design and standards specification
Simulation results and discussion
conclusion
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M ti tiMotivation:
To discuss parameters that effect voice quality
To analyze VoIP performance in wired and wireless connections
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Introduction:
Alternative to Public Switch Telephone Network or PSTNAlternative to Public Switch Telephone Network or PSTNImplements on Internet Protocol therefore uses Packet‐
switched protocol[1]AdAdvantages:
•Cheaper • more call options such as group conversations and video p g pcalling and file transfer
Disadvantages:Disadvantages:•Dependent on Internet connection•Less reliable: higher package drop rate
i i i h d l h kcompare to circuit‐switched telephone network
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R d Road map:
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Quality of Service: Quality of Service:
Jitter: The variation of the delay in the voice packages reaching destination
End‐to‐End Delay: is the time passed from the moment that End to End Delay: is the time passed from the moment that the signal is sent to the moment that the signal arrives at the destination
MOS: Mean Opinion Score‐ Subjective assessment of the voice quality, the values are from 1 to 5, 5 being the highest score
Packet Loss: the difference between the number of Packet Loss: the difference between the number of packets sent and number of packets arrived at the destination[2].
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R d Road map:
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Ethernet LAN module
Wide area network Local area network
Wireless LAN Module
Wireless Wide Area Network
Wireless Local Area Network
Figure 1 Project Scenario Flowchart
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Average Quality Ideal QualityJitter <60ms <20msE d d d l 150 50End‐to‐end delay <150ms <50msPacket loss <5% <1%
Table 1 ITU Standards for VoIP on IEEE 802 11g Protocol[3][4]Table 1 ITU Standards for VoIP on IEEE 802.11g Protocol[3][4]
Quality Scale Mean Opinion Score (MOS)(MOS)
Excellent 5Good 4Fair 3Poor 2B d 1
Table 2 MOS Scale
Bad 1
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LAN setup:LAN setup:
Figure 2 LAN configuration setup‐ Office 10 client
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WAN Setup:WAN Setup:
Figure 3 WAN configuration
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Toronto SubnetVancouver Subnet
Figure 4 Vancouver Subnet Figure 5 Toronto Subnet
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WLAN SWLAN Setup:
Figure 6 WLAN configuration
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WWAN Setup:WWAN Setup:
Figure 7 WWAN configuration
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R d Road map:
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I. Wired Connections: LAN vs. WAN
JiJitter
LAN ≈ 0 msWAN: Max=13ms
Min=3ms
Ideal =20 ms
> Both are ‐> Both are considered ideal connection.
Figure 8 LAN Vs WAN Jitter
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I. Wired Connections: LAN vs. WAN
E d t E d D lEnd‐to‐End Delay
LAN ≈ 300msWAN MWAN: Max=4.2s
Min=3.8s
Average= 150 ms
‐> Both are higher ‐> Both are higher than average voice quality.
Figure 9 LAN Vs WAN ETE Delay
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I. Wired Connections: LAN vs. WAN
MOSMOS
LAN=3.69LAN 3.69WAN=3.67
Fair 3 4Fair = 3‐4
‐> Fair connection!
Figure 10 LAN Vs WAN MOS
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I. Wired Connections: LAN vs. WAN
P k t LPacket Loss
WAN >LANWAN >LANWAN sent
LAN Sent LAN Received
WAN Received
Figure 11 LAN Vs WAN Packet Loss
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II. Wireless Connection: WLAN vs. WWAN
JitterJitter
WLAN 0 2 msWLAN ≈ 0 ‐2 msWWAN: Max=16ms
Min=4ms
Ideal =20 ms
‐> Both are considered ideal connectionconnection.
Figure 12 WLAN Vs WWAN Jitter
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II Wi l C i WLAN WWANII. Wireless Connection: WLAN vs. WWAN
End‐to‐End DelayEnd to End Delay
WLAN ≈ 300‐400ms400msWWAN: Max=5.2s
Min=4.8s
Average= 150 ms
‐> Both are higher than average voice qualityquality.
Figure 13 WLAN Vs WWAN ETE Delay
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II. Wireless Connection: WLAN vs. WWAN
MOSMOS
WLAN 3 7WLAN=3.7WWAN=3.6
Fair = 3‐4
‐> Fair > Fair connection!
Figure 14 WLAN Vs WWAN MOS
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II. Wireless Connection: WLAN vs. WWAN
Packet LossPacket Loss
WWAN>WLANWWAN sent
WWAN ReceivedWLAN Sent WLAN Received
WWAN Received
Figure 15 WLAN Vs WWAN Packet Loss
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R d Road map:
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C l i
h li f i (i f k l d d
Conclusion
The quality of voice (in terms of packet loss, end‐t0‐end delay, and jitter ) aggravates as the distance over which the connection is established increases
We observed that, the quality of voice over wired connections is better than wireless connectionconnections is better than wireless connection
PSTN connections are more reliable than VoIP
VoIP reduces cost significantly
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F t W kFuture Work
Investigate effects of background load on wireless g gconnections
Investigate effects of having different types of connection links (high speed links)
Compare various VoIP protocolsp p
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R fReferences:
M ht P i d S j Ud i "V i IP " IEEE 1. Mehta, Princy, and Sanjay Udani. Voice over IP. IEEE Potentials 20.4 (2001): 36‐40.
2. Ghencea, Adrian, and Floriana Gerea. "QoS and Voice Over IP " Journal of Knowledge Management Economics & Information IP. Journal of Knowledge Management, Economics & Information Technology 2.4 (2012).
3. CisCo IOS Quality of service for Voice over IP, Retrieved from http://www.cisco.com/c/en/us/td/docs/ios/solutions docs/qos solp // / / / / / / / _ /q _utions/QoSVoIP/QoSVoIP.html, Spring 2014
4. E. Chi‐Pong Chan, “Performance Analysis of Voice Communications in a Private802.11 Network”, Ensc 835: High‐Performance Networks, 2003, pp. 8
5. J. Davidson, J. Peters, M. Bhatia, S. Kalidindi and S. Mukherjee, Voice over IP Fundamentals. Indianapolis: Cisco press, 2007
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Questions?