Comparison between On-line Supervised Learning and Unsupervised Learning of Link Quality estimates in wireless networks Performance
ZAGHLOUL, M., ABO EL-EZZ, R., ABO-GHAZALA, M. (2017). Comparison between On-line Supervised Learning and Unsupervised Learning of Link Quality estimates in wireless networks Performance. EKB Journal Management System, 26(1), 226-246. doi: 10.21608/mjeer.2017.63480
M. F. ZAGHLOUL; R. H. ABO EL-EZZ; M. M. ABO-GHAZALA. "Comparison between On-line Supervised Learning and Unsupervised Learning of Link Quality estimates in wireless networks Performance". EKB Journal Management System, 26, 1, 2017, 226-246. doi: 10.21608/mjeer.2017.63480
ZAGHLOUL, M., ABO EL-EZZ, R., ABO-GHAZALA, M. (2017). 'Comparison between On-line Supervised Learning and Unsupervised Learning of Link Quality estimates in wireless networks Performance', EKB Journal Management System, 26(1), pp. 226-246. doi: 10.21608/mjeer.2017.63480
ZAGHLOUL, M., ABO EL-EZZ, R., ABO-GHAZALA, M. Comparison between On-line Supervised Learning and Unsupervised Learning of Link Quality estimates in wireless networks Performance. EKB Journal Management System, 2017; 26(1): 226-246. doi: 10.21608/mjeer.2017.63480

Comparison between On-line Supervised Learning and Unsupervised Learning of Link Quality estimates in wireless networks Performance

Menoufia Journal of Electronic Engineering Research
Article 14, Volume 26, Issue 1, January 2017, Page 226-246  XML
Document Type: Original Article
DOI: 10.21608/mjeer.2017.63480
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Authors
M. F. ZAGHLOUL; R. H. ABO EL-EZZ; M. M. ABO-GHAZALA
Dept. of Computers and Systems Eng., Faculty of Eng., Al-azhar University
Abstract
In this paper, Optimized Link State routing protocol (OLSR) and Link Quality Learning protocol (LQL) are employed to show how to control the rerouting time process of a local area network. At every node and for every wireless link, OLSR passively gathers measurements to quantify the network features current value and to assess the related link quality value according to many metrics. The measurements, of These metrics, are used as training samples for the incremental, regression mapping, and supervised learning model which can be used by network protocol LQL to derive link qualities in real-time and robust manner. According to OLSR and LQL, Nodes can also cooperate by exchanging training samples, speeding up the overall learning process. This cooperative feature is useful when the local network configurations are continually changing because of mobility and/or varying traffic pattern. We propose a distributed online protocol based on organized maps learning technique called Self Organized Mapping (SOM). Three performance methods are applied to the wireless network used within this paper: OLSR_SOM that cares making modification, OLSR protocol code, OLSR_LQL that depends on the introducing LQL as a supervised learning protocol and OLSR_SOM that depends on the introducing SOM as an unsupervised learning protocol.
References
: auto; -webkit-text-stroke-width: 0px[1] Huo W, Heab Hand FS, “Electrochemical–thermal modeling for a ternary
lithium ion battery during discharging and driving cycle testing”, RSC
Advances, 2015,5,57599-57607.
[2] Zaghloul M. F, Hussin RA and Mahmoud MA, Enhanced of Retry limit as
a solution of Node mobility and Queuing problems in MANET,
International Research Journal of Innovative Engineering,2015,1(8).1-13
[3] Shital LA, Shailaja KP, Yashashri JA, Rerouting M, Time With Lightweight
Approach in Manets,Minimized Rerouting Time With Lightweight
Approach In Manets IRAJ International Conference-Proceedings of
ICRIEST-AICEEMCS,29 th December 2013.
[4] IETF working group Mobile Ad-hoc Networks,h
ttp://www.ietf.org/html.charters/manet-charter.html
[5] Clausen T, Jacquet P, “Optimized Link State Routing Protocol (OLSR)”,
RFC 3626, October 2003. http://www.olsr.org/IETF MANET OSPF design
team repository,
http://hipserver.mct.phantomworks.org/ietf/ospf/ANSI/IEEE Std 802.11,
1999 Edition (R2003).
[6] Tobagi Fand, Kleinrock L, “Packet Switching in Radio Channels: Part 2-The
Hidden Node Problem in Carrier Sense Multiple Access Modes and the
Busy Tone Solution”, IEEE Trans. Comm., vol. 23, no. 12, pp. 1417-1433,
1975.
[7] Chuanxiong G, Shaoren Z, “Analysis and evaluation of the TCP/IP protocol
stack of LINUX”, International Conference on Communication Technology
Proceedings, 2000. WCC - ICCT 2000, Vol. 1 (2000), pp. 444-453
vol.1.Network Simulator ns-2, http://www.isi.edu/nsnam/ns/ ANSI/IEEE
Std 802.11b, 1999 Edition (R2003).
[8] Gomez C, Garcia D, J. Paradells, “Improving Performance of a Real Ad-hoc
Network by Tuning OLSR Parameters”, Proceedings of the 10th IEEE
Symposium on Computers and Communications, 27-30 June, 2005, 16 21.
[9] Kim KH and Shin KG, “On accurate and asymmetry-aware measurement of
link quality in wireless mesh networks,” IEEE/ACM Transactions on
Networking,2009,17(4), 11721185.
[10] Voorhaen M, Blondia C, “Analyzing the Impact of Neighbor Sensing on the
Performance of the OLSR protocol”, Proceedings of the 4th International
Symposium on Modeling and Optimization in Mobile, Ad Hoc and Wireless
Networks, 03-06 April 2006.
[11] Melodia T, Pompili D, and Akyildiz I, “A communication architecture for
mobile wireless sensor and actor networks,” in Proc. of IEEE SECON’06,
pp. 109118, IEEE, 2006.

g: 0px; -webkit-text-size-adjust: auto[12] Baccour N, Koubaa A, Zuniga M, Youssef H, Boano C, and Alves M,
“Radio link quality estimation in wireless sensor networks: a survey,” ACM
Transactions on Sensor Networks,2012, 8(4),1-8.
[13] De Couto DS, Aguayo D, Bicket J and Morris R, “A highthroughput path
metric for multi-hop wireless routing,” in Proc. Of MobiCom ’03, pp. 134–
146, ACM Press, 2003.
[14] Feo Eand, Caro DA, “A flow-based optimization model for throughputoriented relay node placement in wireless sensor networks,” in Proc. of the
28th ACM Symp. on Applied Computing (SAC), 2013.
[15] Engelstad PE, Østerbø ON, "Analysis of the Total Delay of IEEE 802.11e
EDCA and 802.11 DCF", Proceedings of IEEE International Conference on
Communication (ICC'2006), Istanbul, June 11-15, 2006. (See also:
http://folk.uio.no/paalee)
[16] Draves R, Padhye J, and Zill B, “Routing in multi-radio, multi-hop wireless
mesh networks,” in Proceedings of MobiCom, pp. 114–128, ACM Press,
2004.
[17] Wattenhofer R and Zollinger A, “XTC: A practical topology control
algorithm for ad-hoc networks,” Proc. of the 18th International Parallel and
Distributed Processing Symposium, pp. 216223, 2004.
[18] Yang Y, Wang J, and Kravets R, “Interference-aware load balancing for
multihop wireless networks,” Tech. Rep. 361702, University of Illinois at
Urbana-Champaign, 2005.
[19] Feo Eand Caro GA, “A flow-based optimization model for throughputoriented relay node placement in wireless sensor networks,” in Proc. of the
28th ACM Symp. on Applied Computing (SAC), 2013.
[20] Krause A, Guestrin C, Gupta A, and Kleinberg J, “Near-optimal sensor
placements: Maximizing information while minimizing communication
cost,” in Proc. of IPSN’06, pp. 2–10, ACM, 2006.
[21] Wattenhofer R and Zollinger A, “XTC: A practical topology control
algorithm for ad-hoc networks,” Proc. of the 18th International Parallel and
Distributed Processing Symposium, pp. 216223, 2004.
[22] Yang Y, Wang J, and Kravets R, “Interference-aware load balancing for
multihop wireless networks,” Tech. Rep. 361702, University of Illinois at
Urbana-Champaign, 2005.
[23] Feo Eand, Di Caro GA, “A flow-based optimization model for throughputoriented relay node placement in wireless sensor networks,” in Proc. of the
28th ACM Symp. on Applied Computing (SAC), 2013.
[24] Kim KH and Shin KG, “On accurate and asymmetry-aware measurement of
link quality in wireless mesh networks,” IEEE/ACM Transactions on
Networking, vol. 17, no. 4, pp. 11721185, 2009.
[25] Melodia T, Pompili D and Akyildiz I, “A communication architecture for
mobile wireless sensor and actor networks,” in Proc. of IEEE SECON’06,
pp. 109118, IEEE, 2006.

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