CFP last date
22 April 2024
Reseach Article

Study of Congestion Issues during Highly Loaded Traffic Network

Published on April 2016 by Ravi Verma, Bharat Bhushan
International Conference on ICT for Healthcare
Foundation of Computer Science USA
ICTHC2015 - Number 1
April 2016
Authors: Ravi Verma, Bharat Bhushan
7ed83967-2a5b-489b-9234-b6b6732e1515

Ravi Verma, Bharat Bhushan . Study of Congestion Issues during Highly Loaded Traffic Network. International Conference on ICT for Healthcare. ICTHC2015, 1 (April 2016), 16-19.

@article{
author = { Ravi Verma, Bharat Bhushan },
title = { Study of Congestion Issues during Highly Loaded Traffic Network },
journal = { International Conference on ICT for Healthcare },
issue_date = { April 2016 },
volume = { ICTHC2015 },
number = { 1 },
month = { April },
year = { 2016 },
issn = 0975-8887,
pages = { 16-19 },
numpages = 4,
url = { /proceedings/icthc2015/number1/24654-8252/ },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Proceeding Article
%1 International Conference on ICT for Healthcare
%A Ravi Verma
%A Bharat Bhushan
%T Study of Congestion Issues during Highly Loaded Traffic Network
%J International Conference on ICT for Healthcare
%@ 0975-8887
%V ICTHC2015
%N 1
%P 16-19
%D 2016
%I International Journal of Computer Applications
Abstract

Congestion occurs when traffic gets higher beyond the capacity of node and bandwidth of available channel, as per the study of all previous traditional congestion control algorithm, policies and implemented technology, one can understands network should be stable, reliable, and efficient and should enough to work well in high congested area. In this paper author proposed an algorithm and simulate them for performance analysis, where they take care the underline specification as low buffer size problem, bandwidth utilization, and data loss problems, proposed algorithm comfortable with real time application environment in the network, which gets demand for higher bandwidth communication architecture, where traffic should be managed with proper fault tolerance, proposed distributed session object allows the network to works in distributed synchronized fashion to support run time real application environment. It also help them to provide transmission link available dedicatedly by P to P connection so that one can get stability, efficiency, portability and optimal path for routing process with minimum delay spam not only in limited area network but also in infrastructure network .

References
  1. Hsien-Po Shiang, Van der Schaar, M. A Quality Centric TCP Friendly Congestion Control for Multimedia Transmission IEEE Journal Publication in 2012 Vol. 14, pp. 896-909.
  2. D. Pati;, S. N. Dhage ?Priority Based Congestion Control Protocol for Controlling Upstream Congestion in Wireless Sensor Network, Communication , Information and Computing Technology IEEE Computer Society,2012 pp. 1-6.
  3. Shi Zhiqiang,D. lonescu,Dongli Zhang A Token Based Method for Congestion and Packets Loss Control Latin America Transaction IEEE,2013,vol. 11,pp 802-811.
  4. A. Masri. EI. A. Sardouk, L. Khoukhi, A. Hafid,Gaiti ?Neighborhood Aware and Overhead Free Congestion Control for IEEE 802. 11 Wireless Mesh Networks Wireless Communication ,IEEE Transaction , 2014 Vol. 13,pp. 878- 892.
  5. H. Oda , H. Hisamatsu H. Noboria ?Design and Evaluation of Hybrid Congestion Control Mechanism for Video Streaming Computer and information Technology Journal IEEE,2011, pp. 585-590.
  6. M. Manjul, R. Mishra, ?A New Equatio Based Single Rate Multicast Congestion Control IEEE International Conference on Computing for Sustainable Global Development (INDIACom), 2014, pp. 927-933.
  7. Kai Shi, Yantai Shu, Sheng Lin, Jinsong Wang, Jiarong Luo,?A MAC Layer Congestion Control Method to Achieve High Network Performance for AST Experiment IEEE NPSS on Real Time Communication, 2012, pp. 1-4.
  8. Liu Yuanni, Li Xin, Shanzhi Chen, Zhen Qin,?Link Congestion Control Mechanism Based on Multi-Topogy. Wireless Communication networking and Mobile Computing, 2010, pp. 1-4.
  9. E. G. Gran, Reinemo S. A. Lysne O. Skeie T. Zahavi E. Shainer G. , Exploring the Scope of the InfiniBand Congestion Control Mechanism, IEEE Parallel and Distributed Processing Symposium, 2012, pp. 131-143.
  10. Qian wang, Dgongfeng Yuan, An Improved Congestion Control Mechanism with Adaptive Congestion Window International IEEE Symposium on Performance Evaluation of Computer and Telecommunication System, 2010 pp. 231-235.
  11. V. Michopoulos, Lin Guan, Phillips, I. A new congestyion Control Mechanism for WSNs IEEE Conference on Computer and Information Technology 2010, pp. 709-714.
  12. E. Kumar, S. Chugh, S. P. Ghrera, Performance Analysis of RED with Difference TCP Congestion Control Mechanism International Conference on Emerging Trends in Networks and Computer Communication IEEE, 2011 pp. 414-417.
  13. C. Hollot, V. Misra, D. Towsley, and W. Gong. On Designing Improved Controllersfor AQM Routers Supporting TCP Flows. IEEE INFOCOM, 2001.
  14. Kai Shi, Oliver Shu "A Distributed MAC Layer Congestion Control Method to Achieve High Network Performance for EAST Experiments", IEEE Trans. Vol. 60, No. 5, October 2013.
Index Terms

Computer Science
Information Sciences

Keywords

P To P Connection Congestion Efficiency Portability.