A Bandwidth and Energy Aware QoS Routing Protocol for  Enhanced Performance in Ad-hoc Networks

Priyanka	      Bharadwaj; Surjeet	      Balhara

doi:10.2174/2210327908666180801125735

Abstract

Background & Objective: There are some challenging issues such as providing Quality of Service (QoS), restricted usage of channels and shared bandwidth pertaining to ad-hoc networks in a dynamic topology. Hence, there is a requirement to support QoS for the application environment and multimedia services in ad-hoc networks with the fast growing and emerging development of information technology. Eventually, bandwidth is one of the key elements to be considered.

Methods: Energy aware QoS routing protocol in an ad-hoc network is presented in this article.

Results and Conclusion: The simulation results indicate that the improved protocol outperforms Adhoc On-Demand Distance Vector (AODV) routing protocol in terms of QoS metric such as throughput, packet delivery ratio, loss rate and average delay.

Keywords: Ad-hoc network, bandwidth improvement, dynamic topology, energy aware QoS routing, multimedia services, QoS.

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[1] 
Taha A, Alsaqour R, Uddin M, Abdelhaq M, Saba T. Energy efficient multipath routing protocol for mobile ad-hoc network using the fitness function  IEEE Access  2017; 5: 10369-81.
[2] 
Deepa O, Suguna J. An optimized QoS-based clustering with multipath routing protocol for Wireless Sensor Networks.  J King Saud Univ Comput Inform Sci   2017; 29.
[http://dx.doi.org/10.1016/j.jksuci.2017.11.007] 
[3] 
Mohemed RE, Saleh AI, Abdelrazzak M, Samra AS. Energy-efficient routing protocols for solving energy hole problem in wireless sensor networks. Comput Netw  2017; 114: 51-66.
[4] 
Al-Kharasani N, Zulkarnain Z, Subramaniam S, Hanapi Z. An efficient framework model for optimizing routing performance in VANETs. Sensors    2018; 18(2): 597.
[5] 
Hamad S, Belhaj S, Muslam MM. Average link stability with energy-aware routing protocol for MANETs. Int J Adv Comp Sci Appl  2018; 9(1): 554-62.
[6] 
Mu’azu AA, Fageeri SO. Enhanced Bandwidth reservation guarantees for QoS routing in vehicular network In: 2017 international conference on communication, control, computing and electronics engineering (ICCCCEE).  Khartoum, Sudan: IEEE 2017; pp. 1-6.
[7] 
Fekair ME, Lakas A, Korichi A. CBQoS-Vanet: Cluster-based artificial bee colony algorithm for QoS routing protocol in VANET In: 2016 international conference on selected topics in mobile & wireless networking (MoWNeT).  Cairo, Egypt: IEEE 2016; pp. 1-8.
[8] 
Li Y, Yang S. Research on cluster head selection algorithm based on QoS constraints in mobile ad hoc networks. In: 2015 10th international conference on broadband and wireless computing, communication and applications (BWCCA) Krakow, Poland: IEEE 2015 Nov 4; .   392-395.
[9] 
Liu L, Zhou J. Ad-hoc on-demand QoS routing based on bandwidth prediction (AQBP). In:2012 8th international conference on wireless communications, networking and mobile computing Shanghai, China: IEEE .   2012; pp. 1-4.
[10] 
Du K, Yang Y. A QoS routing for maximum bandwidth in ad hoc networks. In: 2010 second international conference on future networks  Sanya, Hainan, China: IEEE.   2010; pp. 343-5.
[11] 
Xu Z. Bandwidth-satisfied QoS multicast routing in tdma-based mobile ad-hoc networks. In: Proceedings of AIAI Beijing, China: IET.   2010; pp. 441-5.
[12] 
Othmen S, Zarai F, Belghith A, Kamoun L. Energy, load, and QoS-aware routing protocol for Ad-Hoc networks In: 2016 international wireless communications and mobile computing conference (IWCMC).  Paphos, Cyprus: IEEE 2016; pp. 886-91.
[13] 
Jiang Q, Men C, Zhang B, Fu S. A QoS aware routing for intermittently connected mobile networks. In: eighth international conference on internet computing for science and engineering (ICICSE)  Florence, Italy; IEEE.   2015; pp. 202-7.
[14] 
Sakeena B, Kohir VV, Eklarker R, Mytri VD. QoS aware routing protocol to improve route maintenance in mobile Ad-Hoc networks In: 2013 international conference on emerging trends in communication, control, signal processing and computing applications (C2SPCA).  Bangalore, India: IEEE 2013; pp. 1-5.
[15] 
Perkins CE. Quality of service for ad hoc on demand distance vector Internet Draft, draft-perkins-manetaodvqos- 02 txt 2003.
[16] 
Liu S, Liu J. Delay-aware multipath source routing protocol to providing QoS support for wireless ad hoc networks. In: 2010 IEEE 12th international conference on communication technology Nanjing, China: IEEE .   2010; pp. 1340-3.
[17] 
Yan-mei Y, Wen-dong H. A QoS routing protocol for mobile Ad-Hoc networked control systems. In: 2nd international conference on networks security, wireless communications and trusted computing.   2010; 2: pp. 89-92.
[18] 
Akkaya K, Younis M. An energy-aware QoS routing protocol for wireless sensor networks. In: 23rd international conference on distributed computing systems workshops Providence, Rhode Island, USA: IEEE .   2003; pp. 710-5.
[19] 
Floyd S, Jacobson V. Link-sharing and resource management models for packet networks. IEEE/ACM Trans Netw  1995; 3(4): 365-86.
[20] 
Zhang XM, Zhang Y, Yan F, Vasilakos AV. Interference-based topology control algorithm for delay-constrained mobile ad hoc networks. IEEE Trans Mobile Comput  2015; 14(4): 742-54.
[21] 
The network simulator - ns-2, available at
                    http:// www.isi.edu/nsnam/ns/
					Accessed date: 2004 May 31.
                    . 

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DOI https://dx.doi.org/10.2174/2210327908666180801125735	Print ISSN 2210-3279
Publisher Name Bentham Science Publisher	Online ISSN 2210-3287

International Journal of Sensors, Wireless Communications and Control

A Bandwidth and Energy Aware QoS Routing Protocol for Enhanced Performance in Ad-hoc Networks

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