Abstract
Wireless Sensor network consists of large number of sensor nodes, which are deployed densely. A key challenge of wireless sensor network is that their sensor nodes contain less amount of battery power. Consequently, efficient utilization of battery power inside the network is a main design consideration. In the querying or monitoring application like critical condition in a particular region, we need the network that respond in few seconds. For the purpose of response in less time, we require energy efficient routing of information inside the network. In this paper, we are proposing an energy efficient clearance routing method to collect/route the query towards a particular region inside the network.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Change history
21 February 2017
An erratum to this article has been published.
References
Alstrup S, Gavoille C, Kaplan H, Rauhe T (2002) Nearest common ancestors: a survey and a new distributed algorithm. In Proceedings of 14th ACM Symposium Parallel Algorithms and Architectures, pp 258–264
Barbancho J, León C, Molina FJ, Barbancho A (2008) A new QoS routing algorithm based on self-organizing maps for wireless sensor networks. J Telecommun Syst 36:73–83
Bose P, Morin P, Stojmenovic I, Urrutia J (2001) Routing with guaranteed delivery in ad hoc wireless networks. ACM Wirel Netw 7(6):198–205
Chang J-H, Tassiulas L (2000) Energy conserving routing in wireless ad-hoc networks. 19th IEEE Annual Joint Conference of Computer and Communications Societies, vol 1, pp 22–31
Das SM, Pucha H, Hu YC, (2005) Performance comparison of scalable location services for geographic ad hoc routing. IEEE INFOCOM’05
Finn G (1987) Routing and addressing problems in large metropolitanscale internetworks. ISI Research Report ISI/RR-87-180, UCSC
Finn GG (1987) Routing and addressing problems in large metropolitan-scale internetworks. Technical Report ISI/RR-87-180, USC/ISI
Gao J (2000) Energy efficient routing for wireless sensor networks. Ph.D. Dissertation, UCLA
Gao J, Sohrabi K, Ailawadhi V, Pottie G (2000) An energy conscious self-organizing wireless sensor network. IEEE PCI Magazine
Imielinski T, Goel S (2000) Dataspace—querying and monitoring deeply networked collections in physical space. IEEE Personal Communications Magazine
Intanagonwiwat C, Govindan R, Estrin Deborah (2000) Directed diffusion: a scalable and robust communication paradigm for sensor networks, ACM Mobicom, Boston
Jia J, Wu X, Chen J, Chen J, Wang X (2012) Exploiting sensor redistribution for eliminating the energy hole problem in mobile sensor networks. EURASIP J Wirel Commun Netw 1:68
Jin M, Xia S, Wu H, Gu X (2011) Scalable and fully distributed localization with mere connectivity. INFOCOM, 2011 Proceedings IEEE, pp 3164–3172
Johnson D, Maltz D, Hu Y (2003) The dynamic source routing protocol for mobile ad hoc networks. IETF MANET Working Group, Internet Draft
Karp B, Kung HT (2000) GPSR: greedy perimeter stateless routing for wireless networks, ACM MobiCom
Kheiri S, Ghaznavi MB, Rafiee GM, Seyfe B (2009) An improved gossiping data distribution technique with emphasis on reliability and resource constraints. IEEE International Conference on Communications and Mobile Computing. Singapore, pp 1604–1609
Ko YB, Vaidya NH (1998) Location-aided routing (LAR) in Mobile Ad Hoc Networks. Fourth ACM/IEEE Annual International Conference on Mobile Computing and Networking, Dallas, pp 66–75
Li J, Jannotti J, DeCouto DSJ, Karger DR, Morris R (2000) A scalable location service for geographic ad hoc routing. ACM MobiCom, Boston
Liu A, Zhang P, Chen Z (2011) Theoretical analysis of the lifetime and energy hole in cluster based wireless sensor networks. J Parallel Distrib Comput 71(10):1327–1355
Norouzi A, Dabbaghian M, Hatamizadeh A, Ustundag BB (2010) An improved elgossiping data distribution technique with emphasis on reliability and resource constraints in wireless sensor network. International Conference on Electronic Computer Technology (ICECT), Kuala Lumpur, pp 179–183, 7–10 May
Perkins CE, Royer EM (1999) Ad hoc on-demand distance vector routing. IEEE International Conference on Mobile Computing System and Applications Workshop. New Orleans, pp 90–100
Sanchez JA, Ruiz PM, Marin-Perez R (2009) Beacon-less geographic routing made practical: challenges, design guidelines and protocols. IEEE Commun 47:85–91
Stemm M, Katz RH (1997) Measuring and reducing energy consumption of network interfaces in hand-held devices. Institute of Electronics, Information and Communication Engineers (IEICE) Transactions on Communications. Special Issue on Mobile Computing
Sugihara R, Gupta R (2011) Sensor localization with deterministic accuracy guarantee. INFOCOM, 2011 Proceedings IEEE, pp 1772–1780
Woo SCM, Singh S (2001) Scalable routing protocol for ad hoc networks. J Wirel Netw (WINET) 7(5):513–529
Author information
Authors and Affiliations
Corresponding author
Additional information
The original version of this article was revised: The redundant elements Figure 34 and blank pages have been removed and the original article is updated accordingly.
An erratum to this article is available at https://doi.org/10.1007/s13198-017-0586-8.
Rights and permissions
About this article
Cite this article
Singh, D.P., Goudar, R.H. Energy efficient clearance routing in WSN. Int J Syst Assur Eng Manag 8 (Suppl 2), 555–575 (2017). https://doi.org/10.1007/s13198-014-0263-0
Received:
Revised:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s13198-014-0263-0