performance evaluation of wimax networks with mobility in...
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Performance Evaluation of WiMAXNetworks with Mobility in
Metropolitan Area Network (MAN)
ENSC 894 : Communication NetworksSchool of Engineering Science
Simon Fraser University
Ali Asghar MerchantEmail : [email protected]
SFU ID: 301223787
Ravneet SohiEmail : [email protected] ID: 30129135
Team Number : 1Project webpage: http://www.sfu.ca/~amerchan
Instructor : Dr. Ljijlana Trajković
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Roadmap
MotivationIntroductionRelated WorkSimulation DesignOPNET modelSimulation ResultsConclusionsChallenges and Future WorkReferences
2April 7, 2014
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Motivation
Share of video streaming traffic – IncreasingWiMAX – Wireless Broadband StandardOur Aim – To evaluate the performance of WiMAX Networks with Mobility
April 7, 2014 3Ref: “Global Internet Phenomena Report.” [online] [Accessed: 20 Mar 2014] https://www.sandvine.com/downloads/general/global-internet-phenomena/2013/sandvine-global-internet-phenomena-report-1h-2013.pdf, Sandvine, pg 8, 2013.
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Roadmap
MotivationIntroductionRelated WorkSimulation DesignOPNET modelSimulation ResultsConclusionsChallenges and Future WorkReferences
4April 7, 2014
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WiMAX - Introduction
Worldwide Interoperability for Microwave AccessWireless Broadband Standard Based on IEEE 802.16 standardStarted in 1999 : as an alternative to DSL2005: Landmark Year
Standard 802.16e releasedMobility was introduced
Evolved into 4G technology
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WiMAX System
WiMAX towerRange – 7 to 10 kms Radius
WiMAX Backhaul
WiMAX ReceiverCan be small boxIn-built in the mobile device
April 7, 2014 6
Ref: M. Brain and E. Grabianowski. "How WiMAX works," http://computer.howstuffworks.com/wimax1.html [Accessed: 22 Mar. 2014], December 2004
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WiMAX Features
Frequency : 2 – 66 GHzHigher Frequencies
Affected by RainLower data rates at higher mobilitySignal attenuation is higher
High Data Rates : 75 MbpsData Rates v/s Distance Trade-offUse of adaptive modulationStrong QOS Mechanism
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Video Streaming
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Client Request Video Server RespondsCompression and corresponding Decompression techniques
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Roadmap
MotivationIntroductionRelated WorkSimulation DesignOPNET modelSimulation ResultsConclusionsChallenges and Future WorkReferences
9April 7, 2014
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Related Work
W. Hrudey and Lj. Trajkovic, “Streaming video content over IEEE 802.16/WiMAX broadband access,” OPNETWORK, Washington, DC, Aug. 2008.Higher Frequencies
Mobility not considered
W. Hrudey and Lj. Trajkovic, “Mobile WiMAX MAC and PHY layer optimization for IPTV,” Mathematical and Computer Modelling, Elsevier, vol. 53, pp. 2119–2135, Mar. 2011
Concentrated on Mobile Hand-off among various BS
R. Gill, T. Farah, and Lj. Trajkovic, "Comparison of WiMAX and ADSL performance when streaming audio and video content," OPNETWORK 2011, Washington, DC, Aug. 2011.
Mobility not considered
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Roadmap
MotivationIntroductionRelated WorkSimulation DesignOPNET modelSimulation ResultsConclusionsChallenges and Future WorkReferences
11April 7, 2014
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Simulation Design
OPNET Modeler version 16.0 has been usedFour metrics are used to measure the performancebetween the server and the clientPacket LossAvg: <10-3 Ideal: < 10-5
End-to-end DelayAvg: < 300 ms Ideal: < 10 msJitterAvg: < 60 ms Ideal: < 20 msThroughputSatisfactory range: 10 kbps – 5 Mbps
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Network Design Parameters
Scheduling Algorithm Best effort (BE)
Downlink / Uplink 3.0 Mbps / 0.640 Mbps
Transmission Power (BS/SS) 3.8W / 2W
PHY profile Wireless OFDMA 20 MHz
Pathloss model Flat terrain with light tree densities
Antenna Gain (BS/SS) 15 dBi / 14 dBi
WiMAX Deployment Parameters
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Roadmap
MotivationIntroductionRelated WorkSimulation DesignOPNET modelSimulation ResultsConclusionsChallenges and Future WorkReferences
14April 7, 2014
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Network Topology
Video Server in TorontoWiMAX Base station and clients in VancouverBoth subnets are about 3,340 km far
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Server Subnet Topology
Server streams audio and video contentServer is protected by the firewallAccess router connects the server to the Internet cloud via a 45 Mbps Digital Signal (DS3) wide area network (WAN) link
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Client Subnet Topology (Linear)
Two fixed WiMAX clients and one mobile client moving linearly away from the base station at a steady speed of 5 km/hrOne WiMAX base stationFixed client stations located at 2km and 6kmMobile station moves from 2km to 6km.
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Client Subnet Topology (Circular)
Two fixed WiMAX clients and one mobile client moving in a circular fashion at a distance of 2km from base stationOne WiMAX base stationFixed client stations located at 2km and 6kmMobile station moves at 5km/hr
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Roadmap
MotivationIntroductionRelated WorkSimulation DesignOPNET modelSimulation ResultsConclusionsChallenges and Future WorkReferences
19April 7, 2014
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Validation
Linear Mobile Node Model
Reference Model
Circular Mobile Node Model
April 7, 2014
Comparing one of the global statistics (Traffic received) for all three cases shows that the model runs similar to the reference model.
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Validation
April 7, 2014
BLUE : FSS_2KMRED : FSS_6KMGREEN : LINEAR MOBILE NODECYAN : CIRCULAR MOBILE NODE
Simulation time
Tim
e (s
ec)
Average Jitter for all 4 nodes shows that they are similar and almost about the same value.
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Packet Loss
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BLUE : FSS_2KMRED : FSS_6KMGREEN : LINEAR MOBILE NODECYAN : CIRCULAR MOBILE NODE
Simulation time
# o
f pa
cket
s
FSS-2KM and Circular Mobile Node : Negligible Packet LossLinear Mobile Node : Packets Loss Increases as Distance IncreasesFSS_6Km : Consistent Packet Loss Throughout SimulationReason : Can be explained using SNR ( next slide)
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Signal-to-Noise Ratio (Average)
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BLUE : FSS_2KMRED : FSS_6KMGREEN : LINEAR MOBILE NODECYAN : CIRCULAR MOBILE NODE
Simulation time
# o
f pa
cket
s
FSS_2KM and Circular Mobile Node have healthy SNRThus, packet Dropped is low.
SNR of linear node decrease as distance increasesSNR of FSS_6KM is lower than required.
Thus, consistent packet loss throughout the simulation
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Packet Loss (Average)
Both mobile nodes meet the performance criteriaPacket loss increases as linear mobile node moves away from the base station
Simulation time
# o
f pa
cket
s
Avg: <10-3
Ideal: <10-5
April 7, 2014
BLUE : FSS_2KMRED : FSS_6KMGREEN : LINEAR MOBILE NODECYAN : CIRCULAR MOBILE NODE
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End-to-End Packet Delay
End-to-end delay for all clients over the simulation of 48 minutes shows that mobile nodes are well within the acceptable range.
Simulation time
Tim
e (s
ec)
Avg: < 300 ms
Ideal: < 10 ms
April 7, 2014
BLUE : FSS_2KMRED : FSS_6KMGREEN : LINEAR MOBILE NODECYAN : CIRCULAR MOBILE NODE
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Delay Jitter
There is no particular node that performs better. Hence, results are as expected and satisfactory.
Simulation time
Tim
e (s
ec)
Avg: < 60 ms
Ideal: < 20 ms
April 7, 2014
BLUE : FSS_2KMRED : FSS_6KMGREEN : LINEAR MOBILE NODECYAN : CIRCULAR MOBILE NODE
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Throughput
2 km station displays much better throughput than the rest
Simulation time
# o
f by
tes Acceptable range
10 kbps – 5 Mbps
April 7, 2014
BLUE : FSS_2KMRED : FSS_6KMGREEN : LINEAR MOBILE NODECYAN : CIRCULAR MOBILE NODE
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Overview of Analysis
April 7, 2014
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Roadmap
MotivationIntroductionRelated WorkSimulation DesignOPNET modelSimulation ResultsConclusionsChallenges and Future WorkReferences
29April 7, 2014
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Conclusions
Extensive simulations of WiMAX wireless networksunder different scenarios have been conducted andfinally reached on the scenario discussed in thispresentationSimulation time: 96 mins / Actual time: 30 minsWiMAX mobility passes the minimum acceptable rangefor various parametersDistance does play a role in performance output
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Roadmap
MotivationIntroductionRelated WorkSimulation DesignOPNET modelSimulation ResultsConclusionsChallenges and Future WorkReferences
31April 7, 2014
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Challenges and Future Work
Challenges:Disk Quota ExceededReference model working issueImplementing mobile nodes in the current subnetDefining circular trajectory
Future Work:Include random trajectoriesTest the effect of speed on performanceIncorporate other applications like HTTP, email, etcTest performance of mobile nodes for various buffersizes
April 7, 2014
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Roadmap
MotivationIntroductionRelated WorkSimulation DesignOPNET modelSimulation ResultsConclusionsChallenges and Future WorkReferences
33April 7, 2014
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References
[1] Wimaxforum.org.(2001). "Mobile4G." [online] Retrieved from: http://www.wimaxforum.org/mobile-4g [Accessed: 22 Mar 2014].
[2] Telegeography (2010) "Asia takes the lead in the 4G market." [Online], http://www.telegeography.com/products/commsupdate/articles/2010/08/05/asia-takes-the-lead-in-the-4g-market/ [Accessed: 20 Mar. 2014].
[3] M. Brain and E. Grabianowski. "How WiMAX works," http://computer.howstuffworks.com/wimax1.html [Accessed: 22 Mar. 2014], December 2004.
[4] R. Prasad and V. J. Fernando, "WiMAX Networks." Springer 2010, p. 29.
[5] J. H. Scott, "The how and why of COFDM." EBU technical Review, 1998, pp. 43-50.
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References
[6] C. Eklund, R. B. Marks, K. L. Stanwood, and S. Wang. "IEEE standard 802.16: a technical overview of the WirelessMANTM air interface for broadband wireless access," IEEE Communications Magazine, vol. 40, no. 6, 2002, pp. 98-107.
[7] J. Kurose and K. Ross, Computer Networking: A Top-Down Approach, 6/e. Boston, MA: Pearson/Addison-Wesley, 2010, p. 589 and p. 592.
[8] W. Hrudey and Lj. Trajkovic, “Streaming video content over IEEE 802.16/WiMAX broadband access,” OPNETWORK, Washington, DC, Aug. 2008.
[9] W. Hrudey and Lj. Trajkovic, “Mobile WiMAX MAC and PHY layer optimization for IPTV,” Mathematical and Computer Modelling, Elsevier, vol. 53, pp. 2119–2135, Mar. 2011.
[10] R. Gill, T. Farah, and Lj. Trajkovic, "Comparison of WiMAX and ADSL performance when streaming audio and video content," OPNETWORK 2011, Washington, DC, Aug. 2011.
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Questions
April 7, 2014
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APPENDIX
April 7, 2014
Different trajectories testedOriginal Reference ModelReference Model working issueReference Model fix
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Different trajectories tested (1)
To test if the results are the same if a different trajectory with the same attributes as of the linear scenario are implemented.
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Different trajectories tested (2)
Testing linear trajectory from tip of green circle to tip of orange circle. Realized later on that 2km from the base station is not at tip of circle instead a little inside.
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Different trajectories tested (3)
We also tried to test the node moving from 6km to 2km i.e moving towards the base station. However, this scenario did not provide meaning to our project goal.
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Different trajectories tested (4)
Implementing random trajectory using built-in tools where the node moves out of the circle for some time and comes back in. Again this scenario had no purpose in our final goal although it was meaningful at the start of the project.
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Different trajectories tested (5)
Using the same random trajectory again but this time the node is at 2km.
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Different trajectories tested (6)
Implementing a random trajectory which would be much more realistic for a user that moves around in the range of the current base station.
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Original Reference Model
We removed the ADSL network completely and also the 4km node as it was not giving any meaning to our project goal.
April 7, 2014
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Reference Model working issue
As soon as you try to open the reference model in OPNET, you will get the above error and after clicking OK, it will show you an empty map.
April 7, 2014
![Page 46: Performance Evaluation of WiMAX Networks with Mobility in …ljilja/ENSC894/Spring14/Projects/merchant... · 2015-02-13 · IEEE 802.16/WiMAX broadband access,”OPNETWORK, Washington,](https://reader033.vdocuments.mx/reader033/viewer/2022042001/5e6de77655b98a760033adef/html5/thumbnails/46.jpg)
46
Reference Model working fix
The trick is, only a few scenarios work in the model. For our purpose, we switched scenario to MPEG4 WiMAX and built our model from there after duplicating the scenario.
April 7, 2014