Login Register Cart 0
Generic placeholder image

International Journal of Sensors, Wireless Communications and Control

Editor-in-Chief

ISSN (Print): 2210-3279
ISSN (Online): 2210-3287

Back
Journal Home About Journal Editorial Board Journal Insight Current Issue Volumes/Issues
Subscribe
Review Article

Quality of Service in Wireless Sensor Networks: Imperatives and Challenges

Author(s): Jitendra Kumar*, Vinay Rishiwal and Mohammad Izharul Ansari

Volume 9, Issue 4, 2019

Page: [419 - 431] Pages: 13

DOI: 10.2174/2210327909666190129154033

Price: $65

Abstract

A Wireless Sensor Network (WSN) is an effective sensing technology that is used to replicate the human capability of sensing, collecting, computing, processing and transmitting the data that is collected from a very large area. In recent past, sensor technology has shown tremendous development in the field of environment & health monitoring, military surveillance, vehicle tracking, and detection. The participating sensor nodes are prone to failure because of limited resources. The topology of the networks is highly dynamic in nature because of frequent failure of the sensor nodes. The Quality of Service support to highly dynamic networks is one of the challenging tasks. The dynamic nature, unpredictable topology, the demand of miniature size of the devices, tiny size of sensors and limited resources attract the researchers towards the designing of QoS aware protocols. This paper has discussed the architecture, applications, life cycle and types of WSN. Further, various QoS protocols, their limitations, and challenges have also been discussed. Further, this paper presents the most important open issues and challenges in providing QoSs provisioning to the WSN as QoS routing, energy consumption, bandwidth utilization, security, and mobility. This comprehensive review surely helps the researchers to find the new existing challenges and also help them to design new research problems for their future work.

Keywords: Networks, QoS, quality, sensor, wireless, ad hoc.

« Previous Next »
Graphical Abstract

[1]
Dohler M. Wireless sensor networks: the biggest cross-community design exercise to-date. Recent Pat Comput Sci 2008; 1(1): 9-17.
[2]
Mumtaz A, Doja MN, Amjad M. Energy efficient distributed clustering and scheduling algorithm for wireless sensor networks with non-uniform node distribution. IJARCS 2018; 9(2): 527-32.
[3]
Suchita R. Wankhade1 A, Nekita A, Chavhan A. Review on data collection method with sink node in wireless sensor network. IJDPS 2013; (4)1: 67-74.
[4]
Xia F. QoS challenges and opportunities in wireless sensor/actuator networks. Sensors 2008; 8: 1099-2.
[5]
Chen J, Díaz M, Llopis L, Rubio B, Troya JM. A survey on quality of service support in wireless sensor and actor networks: requirements and challenges in the context of critical infrastructure protection. JNCA 2011; 34: 1225-39.
[6]
Cheng C, Tian B, Li Y, Yao Q. Data aggregation technologies of wireless multimedia sensor networks: a survey. Proc IEEE Int Conf Vehic Electr Safety QingDao. China. July 15-17, 2010; 83-8.
[7]
Fabricio C, Gouveia D, Magedanz T. Quality of service in telecommunication networks. In Telecommun Syst Tech Vol 2: pp. 1- 8.
[8]
Wang Y, Liu X, Yin J. Requirements of quality of service in wireless sensor network. Int Conf Sys Int Conf Mobile Commun Learn Tech Morne. Mauritius. 2006, April 23-29;
[9]
Kweon K, Ghim H, Hong J, Yoon H. Grid-based energy-efficient routing from multiple sources to multiple mobile sinks in wireless sensor networks. In 4th Int Conf Wireless Pervasive Comput. 2009, pp. 185-9. Melbourne, Australia.
[10]
Duan Z, Fan G, Deng MX, Yu M. Shortest path routing protocol for multi-layer mobile wireless sensor networks. In Int Conf Network Secur, Wireless Commun Trusted Comput. 2009 April 25-26, pp. 106-10, Wuhan, Hubei, China.
[11]
Huang X, Zhai H, Fang Y. Robust cooperative routing protocol in mobile wireless sensor networks. IEEE Trans Wirel Commun 2008; 7(12): 5278-85.
[12]
Munir R, Jiao W, Xie M. Mobile wireless sensor network: architecture and enabling technologies for ubiquitous computing. 21st Int Conf Adv Info Netw Appli Workshops AINAW'07 2007: May 21- 23, Niagara Falls, ON, Canada.
[13]
Karaki JN, Kamal AE. Routing techniques in wireless sensor networks: a survey. IEEE Wirel Commun December 2004; pp. 6- 28
[14]
Vuran MC, Akyildiz IF. Error control in wireless sensor networks: a cross-layer analysis. IEEE/ACM Trans Netw Vol 17 Issue 4, August 2009; pp. 1186-99 IEEE Press Piscataway, NJ, USA.
[15]
Zogovic N, Dimic G, Bajic D. Wireless sensor networks: QoS provisioning at MAC and physical layers. In 17th Telecomm Forum TELFOR Serbia, Belgrade, November 24-26, 2009; pp. 346-9.
[16]
On J, Jeon H, Lee J. A scalable MAC protocol supporting simple multimedia traffic QoS in WSNs IJDSN August 2011, Volume 7 Issue 1.
[17]
Nabi M, Blagojevic M, Geilen M, Basten T, Hendriks T. MCMAC: an optimized medium access control protocol for mobile clusters in wireless sensor networks. Proc 7th Annual IEEE Commun Soc Conf Sensor Mesh Ad Hoc Commun Netw (SECON). 2010 June 21-25; Boston, USA.
[18]
Huang R, Song WZ, Xu M, Shirazi B. Localized QoS-aware media access control in high-fidelity data center sensing networks. Proc Int Conf Green Comput. 2010; August 15-18, Chicago, USA.
[19]
Kim H, Min SG. Priority-based QoS MAC protocol for wireless sensor networks. Pro IEEE Int Symp Parallel Distrib Process. 2009, May 23-29; Rome, Italy.
[20]
Verma A, Vashist P. Enhanced clustering ant colony routing algorithm based on swarm intelligence in wireless sensor network (ICACEA). 2015 March 19-20, pp. 150-4, Ghaziabad, India.
[21]
Houngbadji T, Pierre S. QoSNET: an integrated QoS network for routing protocols in large-scale wireless sensor networks, computer communications 2010; 33:1334-42.
[22]
Ben-Othman J, Yahya B. Energy efficient and QoS based routing protocol for wireless sensor networks. JPDC August 2010; 70: 849-57.
[23]
Cobo L, Quintero A, Pierre S. Ant-based routing for wireless multimedia sensor networks using multiple QoS metrics. Comput Netw 2010; 54: 2991-3010.
[24]
Wang C, Li B, Sohraby K. In: Zhenog J, Jamalipour A, Eds. Transport protocols quality of service. New York: John Wiley & Sons, Inc. 2009; pp. 343-26.
[25]
Lin L, Donghui L. An energy-balanced routing protocol for a wireless sensor network. HJS 2018; pp. 1-12.
[26]
Logambigai R, Kannan A. QEER: QoS aware energy efficient routing protocol for wireless sensor networks. 6th Int Conf Adv Comput (ICoAC). 2014; December 17-19, pp. 57-60, Chennai, India.
[27]
Malarvizhi K, Brindha M, Madhusudan K. Evaluation of energy efficient routing in wireless multimedia sensor networks Int Conf Electr Commun Sys (ICECS) 2015; December 15-17, pp. 1387-91, Chennai, India.
[28]
Tapas BR, Siddanna LC. Link quality based opportunistic routing algorithm for QOS: aware wireless sensor networks security. WPC Springer November 2017, Volume 97, Issue 1, pp. 1563-78.
[29]
Munishwar VP, Tilak SS, Abu-Ghazaleh NB. In: Misra S, Woungang I, Misra SC, Eds., Congestion and flow control in wireless sensor networks, CCN, London: Springer 2009, pp. 205-24.
[30]
Sharif A, Potdar V, Rathnayaka AJD. Prioritizing information for achieving QoS control in WSN. 24th IEEE Int Conf Adv Info Netw Appli. 2010 April 20-23; 835-42.Perth, Australia.
[31]
Sharif A, Potdar V, Rathnayaka AJD. Priority enabled transport layer protocol for wireless sensor network. 24th Int Conf Adv Info Netw Appli Workshops. 2010 April 20-23; 583-8.Perth, Australia.
[32]
Yaghmaee MH, Adjeroh D. A reliable transport protocol for wireless sensor networks. Int Symp Telecommun. 2008 August 27-28; 440-5.Tehran, Iran.
[33]
Hind A, Anjali A. MQoSR: a multi-objective QoS routing protocol for wireless sensor networks. Hindawi’s ISRN 2013; pp. 1-12.
[34]
Bhuyan B, Sarma N. A QoS aware routing protocol in wireless sensor networks with mobile base stations. Proc Int Conf Internet Things Cloud Comput. 2016 March 22-23; Cambridge, United Kingdom.
[35]
Yuan J, Li Z, Yu W, Li B. A cross-layer optimization framework for multicast in multi-hop wireless networks. In Proc 1st Int Conf Wireless Internet (WICON ’05). 2005 July pp. 47-54, Budapest, Hungary.
[36]
Seada K, Zuniga M, Helmy A, Krishnamachari B. Energy-efficient forwarding strategies for geographic routing in lossy wireless sensor networks. In Proc 2nd Int Conf Embedded Netw Sensor Sys (SenSys ’04). 2004; pp. 108-21, Baltimore, MD, USA.
[37]
Ye W, Heidemann J, Estrin D. An energy-efficient MAC protocol for wireless sensor networks. In Proc 21st Annual Joint Conf IEEE Comp Commun Soc (INFOCOM ’02). June 2002; vol. 3: pp. 1567- 76, New York, NY, USA.
[38]
Kozat UC, Koutsopoulos I, Tassiulas L. Cross-layer design for power efficiency and QoS provisioning in multi-hop wireless networks. IEEE Trans WC 2006; 5(11): 3306-15.
[39]
Suh C, Shrestha DM, Ko YB. An energy-efficient MAC protocol for delay-sensitive wireless sensor networks. In Proc Embedded Ubiquitous Comput Workshops (EUC ’06) 2006; 4097: 445-54.
[40]
Tarique M, Tepe KE, Naserian M. A cross-layer design for passive forwarding node selection in wireless ad-hoc networks. In Proc Int Conf Wireless Netw Commun Mobile Comput. vol. 1 June 2005, pp. 802-7, Maui, Hawaii, USA.
[41]
Hashim R, Nasir Q, Harous S. Adaptive multi-path QoS aware dynamic source routing protocol for mobile adhoc network. InProc Innovat Info Tech. 2006; pp. 1-5, Dubai, UAE.
[42]
DeCleene B, Firoiu V, Dorsch M, Zabele S. Cross-layer protocols for energy-efficient wireless sensor networking. In Proc IEEE Milit Commun Conf. 2005; 3: 1477-84.
[43]
Doja MN, Ansari MIH, Amjad M. Quality of service provisioning for mobile ad-hoc sensor network: a survey. In Proc IEEE, Int Adv Comput Conf. 2009; 6-7 March, pp. 3070-5, Patiala, India.
[44]
Wakee U, Bilal MK. Improved quality of service in wireless sensor network with mobile sink. 17th IEEE Int Multi Topic Conf. 2014, 8- 10 December, pp. 36-40, Karachi, Pakistan.
[45]
Hajar EH, Loubna E, Yann B. Maximizing QoS in heterogeneous wireless sensor networks: memory and time considerations. 10th Int Conf Intell Sys: Theories Appli. 2015 October 20-21; Rabat, Morocco. 2015.
[46]
Ahmed A, Kumar P, Bhangwar AR, Channa MI. A secure and QoS aware routing protocol for wireless sensor network. 11th Int Conf Internet Tech Secured Trans. 2016 December 5-7; 313-7.Barcelona, Spain.

Rights & Permissions Print Cite
Article Metrics
18
3
© 2024 Bentham Science Publishers | Privacy Policy