International Journal of Computer Network and Information Security (IJCNIS)
IJCNIS Vol. 10, No. 6, 8 Jun. 2018
Cover page and Table of Contents: PDF (size: 1143KB)
A Combined TCP-friendly Rate control with WFQ Approach for Congestion Control for MANET
Full Text (PDF, 1143KB), PP.52-59
Views: 0 Downloads: 0
Author(s)
Index Terms
TCP-friendly rate control, Congestion control, WFQ, MANET
Abstract
Congestion control techniques are extensively used to avoid congestion over the wireless network. But these techniques are incapability of to handle the increased utilization of the various application which raising high congestion and packet loss over the network and causing inconvenient to different services. The TCP-friendly rate control (TFRC) protocol is primarily considered to describe the effective and finest potential provision for such applications which is following it preeminent in the wired and wireless environment. But it also suffers due to slow start and time-consuming process which required several round-trip-time (RTT) to reach an optimal level of the communication rate. As the TRFC transmission rate is highly affected by the increase RTTs and this results in an raise in the packet loss and a corresponding significant decrease in the throughput. In this paper, we propose an integrated TFRC with weighted fair queue (WFQ) approach to overcoming the congestion and minimize the RTTs. The WFQ mechanism manages the incoming heavy traffic to ease the data rate control for smooth data flow to improve throughput. The simulation evaluation of the approach shows an improvisation in throughput with the low delay in different data flow conditions.
Cite This Paper
Y. Narasimha Reddy, P V S. Srinivas, "A Combined TCP-friendly Rate control with WFQ Approach for Congestion Control for MANET", International Journal of Computer Network and Information Security(IJCNIS), Vol.10, No.6, pp.52-59, 2018. DOI:10.5815/ijcnis.2018.06.05
Reference
[1]M. C. Dias, L. A. Caldeira, and Perkusich, "A Traditional TCP Congestion Control Algorithms Evaluation in Wired-cum-Wireless Networks", IEEE Conference, DOI: 978-1-4799-5344-8/15, 2015.
[2]K. Govardhan Reddy, P.V.S. Srinivas, and K. C. Sekharaiah, "Self-congestion prediction algorithm for efficient routing in Mobile Ad Hoc Network", International Conference on Control, Instrumentation, Communication and Computational Technologies 2014: 745-750.
[3]N. Sivasubramaniam and P. Senniappa, "Enhanced Core-Stateless Fair Queuing with Multiple Queue Priority Scheduler", The International Arab Journal of Information Technology, Vol. 11, No. 2, March 2014.
[4]S. Floyd, M. Handley, J. Padhye and J. Widmer, "TCP friendly rate control (TFRC): protocol specification", RFC-3448, Proposed Standard, September 2008.
[5]I. Ullah, Zawar Shah and Adeel Baig, "S-TFRC: An Efficient Rate Control Scheme for Multimedia Handovers", Computer Science and Information Systems 13(1):45-69, 2015.
[6]P. L. Utsav and S. S. Patil, "Extension of TCP To Improve The Throughput", International Conference on Computing Communication Control and Automation, 2015.
[7]S.R.M. Krishna, M.N. Seeta Ramanath, V. Kamakshi Prasad, "Optimal Reliable Routing Path Selection in MANET through Novel Approach in GA", International Journal of Intelligent Systems and Applications (IJISA), Vol.9, No.2, pp.35 - 41, 2017. DOI: 10.5815/ijisa.2017.02.05
[8]D. Murray and Kevin Ong, "Experimental Evaluation of Congestion Avoidance", IEEE 29th International Conf. on Adv. Information Networking and Applications, 2015.
[9]M. Scharf, "Performance Analysis of the Quick-Start TCP Extension", In IEEE Fourth International Conference on Broadband Communications, Networks and Systems, pp. 942-951, 2007.
[10]K. Govardhan Reddy, P. V. S. Srinivas, C. Sekharaiah K," Congestion Avoidance and Data Prioritization Approach for High Throughput in Mobile Ad Hoc Networks" International Journal of Applied Engineering Research, Volume 10, Number 4 (2015), pp.8469-8486
[11]S. V. Mallapur, S. R. Patil, J. V. Agarkhed, "A Stable Backbone - Based on Demand Multipath Routing Protocol for Wireless Mobile Ad Hoc Networks", International Journal of Computer Network and Information Security(IJCNIS), Vol.8, No.3, pp.41 - 51, 2016.DOI: 10.5815/ijcnis.2016.03.06
[12]S. Ha, I. Rhee, and L. Xu, "Cubic: a new TCP-friendly high-speed TCP variant", SIGOPS Oper. Syst. Rev., vol. 42, pp. 64-74, July 2008.
[13]A. Sathiaseelan and G. Fairhurst, "TCP-Friendly Rate Control (TFRC) for bursty media flows", In Elsevier Journal on Computer Communications Vol-34, 1836-1847, 2011.
[14]S. Lee, H. Roh, H. Lee, and K. Chung, "Enhanced TFRC for High-Quality Video Streaming over High Bandwidth-Delay Product Networks", Journal Of Communications And Networks, Vol. 16, No. 3, June 2014.
[15]G. Sharma, M. Singh, P. Sharma, "Modifying AODV to Reduce Load in MANETs", International Journal of Modern Education and Computer Science(IJMECS), Vol.8, No.10, pp.25 - 32, 2016.DOI: 10.5815/ijmecs.2016.10.04
[16]Cisco Systems, "Bandwidth management", Cisco Visual Networking Index: Forecast and Methodology, May 2012.
[17]S. Floyd and V. Jacobson, "Random Early Detection Gateways for Congestion Avoidance", IEEE/ACM Transactions on Networking, 1(4): 397-413, 1993.
[18]G. Hasegawa, M. Murata, and H. Miyahara, "Fairness and stability of the congestion control mechanisms of TCP", Telecommunication Systems, Vol. 15, 167-184, 2000.
[19]M. Elshaikh, M. Othman, S. Shamala, and J. Desa, "A New Fair Weighted Fair Queuing Scheduling Algorithm in Differentiated Services Network", International Journal of Computer Science and Network Security, vol. 6, no. 11, pp. 267-271, 2006.
[20]M. A. Talaat, M. A. Koutb, and H. S. Sorour, "ETFRC: Enhanced TFRC for media traffic over the Internet", Int. Journal Comput. Netw., pp. 167-177, 2011.
[21]D. Liu, M. Allman, S. Jin, and L. Wang, "Congestion control without a startup phase", In Proc. PFLDNet Workshop, 2007.
[22]H. N. Elmahdy and Mohamed H. N. Taha, "The Impact of Packet Size and Packet Dropping Probability on Bit Loss of VoIP Networks", Proceeding in ICGST-CNIR Journal, Egypt, Vol-8, Issue-2, January 2009.
[23]S. Floyd, Handley M, J. Padhye, J. Widmer, "Equation-based congestion control for unicast applications", In Proceedings of ACM SIGCOMM, Sweden, pg 43-56, 2000.
[24]S. Maamar, B. Abderezzak,"Predict Link Failure in AODV Protocol to provide Quality of Service in MANET", International Journal of Computer Network and Information Security(IJCNIS), Vol.8, No.3, pp.1 - 9, 2016.DOI: 10.5815/ijcnis.2016.03.01
[25]B. Dekeris, T. Adomkus and A. Budnikas, "Analysis of QoS Assurance Using Weighted Fair Queueing (WFQ) Scheduling Discipline with Low Latency Queue (LLQ)", Information Technology Interfaces ITI, Cavtat, 2006.
[26]M. Georg, C. Jechlitschek, and S. Gorinsky, "Improving Individual Flow Performance with Multiple Queue Fair Queuing", in Proceedings of the 15th IEEE International Workshop on QoS, Evanston, USA, pp. 141-144, 2007.
[27]D. Hang, H. Shao, W. Zhu, and Y.Q. Zhang, "TD2FQ: An integrated traffic scheduling and shaping scheme for DiffServ networks", In IEEE International Workshop on High-Performance Switching and Routing, 2001.
[28]I. Hwang, B. Hwang, and C. Ding, "Adaptive Weighted Fair Queuing with Priority (AWFQP) Scheduler for Diffserv Networks", Journal of Informatics & Electronics, vol. 2, no. 2, pp. 1519, 2008.
[29]N. Josevski and N. Chilamkurti, "A Stabilized Core-Stateless Fair Queuing Mechanism for a Layered Multicast Network", In Proceedings of International Conference on Networking and Services, California, USA, pp. 16-21, 2006.
[30]M. F. Homg, W.T. Lee, K.R. Lee and Y.H. Kuo, "An Adaptive Approach to Weighted Fair Queue with QoS Enhanced on IP Network", IEEE Catalogue No. 01, CH37239, 2001.
[31]D. Sisalem and H. Schulzrinne, "The loss-delay based adjustment algorithm: A TCP-friendly adaptation scheme", In Proc. NOSSDAV, pp. 215-226 1998.
[32]S. Floyd, "Limited slow-start for TCP with large congestion windows", RFC 3742, 2004.