Quality of Service and Reliability Analysis of Wireless Networks
-
2018-12-09 https://doi.org/10.14419/ijet.v7i4.36.24235 -
Reliability analysis, wireless network, component failure. -
Abstract
Dependability is the fundamental worry in remote systems. Subsequently, assessing unwavering quality has turned out to be fundamental in frameworks. Many subsisting remote system steering conventions propose the accessibility of solid hubs. This, in any case, isn't a bona fide hypothesis given the elements of remote systems. Withal, because of continuous changes in topology, connect disappointments and hub disappointments are conceivable. Therefore, a credible technique is expected to assess the unwavering quality of remote systems in the event of such vulnerabilities. The unwavering quality of a remote system is constant by specific factors, for example, delay, throughput, dormancy, and overhead. For exploratory investigation, the system execution include that will be used in the test set up will be the throughput of the system. Throughput can be consigned as the volume or measure of information or activity that can saturate a system at a given time. Throughput can be habituated to evaluate arrange productivity and dependability. Very solid creations, gear, and foundation are required for a high gauge of unwavering quality.
Â
Â
-
References
[1] Snow AP, Varshney U & Malloy AD, “Reliability and survivability of wireless and mobile networksâ€, Computer, Vol.33, No.7, (2000), pp.49-55.
[2] Dharmaraja S, Jindal V & Varshney U, “Reliability and survivability analysis for UMTS networks: An analytical approachâ€, IEEE Transactions on network and service management, Vol.5, No.3, (2008), pp.132-142.
[3] Enad EN & Muhanna GH, “Computer Wireless Networking and Communicationâ€, International Journal of Advanced Research in Computer and Communication Engineering, Vol.2, No.8, (2013), pp.3210-3216.
[4] Kaur N & Monga S, “Comparisons of wired and wireless networks: A reviewâ€, International Journal of Advanced Engineering Technology, Vol.5, No.2, (2014), pp.34-35.
[5] Pandey S & Tyagi V, “Performance analysis of wired and wireless network using ns2 simulatorâ€, International Journal of Computer Applications, Vol.72, No.21), (2013), pp.38-44.
[6] Xinyu CHEN, On fault tolerance, performance, and reliability for wireless and sensor networks (Doctoral dissertation, PhD thesis, The Chinese university of Hong Kong), (2005).
[7] Felemban E, Lee CG & Ekici E, “MMSPEED: Multipath multi-SPEED protocol for QoS guarantee of reliability and timeliness in wireless sensor networksâ€, IEEE transactions on mobile computing, Vol.6, (2006), pp.738-754.
[8] Kwon H, Kim TH, Choi S & Lee BG, “A cross-layer strategy for energy-efficient reliable delivery in wireless sensor networksâ€, IEEE Transactions on Wireless Communications, Vol.5, No.12, (2006), pp.256-992.
[9] Mehta A &Yadav V, “A study on computer network and network Topologyâ€, International Journal of Innovative Research in Technology, Vol.1, No.5, (2014).
[10] Subashini SJ, “Implementation of Wired and Wireless Networks, Analysis Simulation and Result Comparison Using Ns2â€, International Journal of Electrical and Electronics Research, Vol.2, No.3, (2014), pp.209-225.
[11] Arumugam M, “Optical Fibre Communication an Overviewâ€, Pramana Journal of physics, Vol.57, No.5, (2001), pp.849–869.
[12] Sharma P, Arora RK, Pardeshi S & Singh M, “Fibre Optic Communications: An Overviewâ€, International Journal of Emerging Technology and Advanced Engineering, Vol.3, No.5, (2013), pp.474-479.
[13] Idachaba F, Ike DU & Hope O, “Future trends in fiber optics communicationâ€, Proceedings of the World Congress on Engineering, Vol.1, (2014), pp. 2-4.
[14] Mohammed SA, “Design of wireless network based on NS2â€, Journal of Global Research in Computer Science, Vol.3, No.12, (2013), pp.1-7.
[15] Mohammed SA, “Design and simulation of network using NS2.International Journal of Electronics, Communication & Instrumentation Engineering Research and Development, Vol.3, No.1, (2013), pp.237-248.
[16] Ezreik A & Gheryani A, “Design and simulation of wireless network using NS-2â€, 2nd International Conference on Computer Science and Information Technology (ICCSIT'12), (2012), pp.28-29.
[17] Kaushik P, “Optical Networking–A Studyâ€, International journal of advanced research in computer science and software engineering, Vol.5, No.5, (2015).
[18] Kaushik S & Tomar A, “A Comparative Analysis of Transport Layer Protocolsâ€, International Journal of Information & Computation Technology, Vol.4, (2014), pp.1403-1410.
[19] Telecom Regulatory Authority of India, The Indian telecom services performance indicators, (2014).
[20] Venkatesan L, Shanmugavel S & Subramaniam C, “A Survey on Modeling and Enhancing Reliability of Wireless Sensor Networkâ€, Wireless Sensor Network, Vol.5, (2013), pp.41-51.
[21] Chen X & Lyu MR, “Reliability analysis for various communication schemes in wireless CORBAâ€, IEEE Transactions on Reliability, Vol.54, No.2, (2005), pp.232-242.
[22] Choudhary A &Royand OP, “Reliability Evaluation of Mobile Ad-hoc Networksâ€, International Journal of Future Generation Communication and Networking, Vol.8, No.5, (2015), pp.207-220.
[23] Paschal A & Phil Irving P, “Performance Analysis of Wireless Network Throughput and Security Protocol Integrationâ€, International Journal of Future Generation Communication and Networking, Vol.9, No.1, (2016), pp.71-78.
[24] Prakash S, Saini JP & Gupta SC, “Methodologies and Applications of Wireless Mobile Ad-hoc Networks Routing Protocolsâ€, International Journal of Applied Information Systems, Vol.1, No.6, (2012).
-
Downloads
-
How to Cite
S. Thakur, Y., & K. Sakravdia, D. (2018). Quality of Service and Reliability Analysis of Wireless Networks. International Journal of Engineering & Technology, 7(4.36), 753-758. https://doi.org/10.14419/ijet.v7i4.36.24235Received date: 2018-12-18
Accepted date: 2018-12-18
Published date: 2018-12-09