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Peer-to-Peer Networking and Applications

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28-10-2017

RETRACTED ARTICLE: Energy efficient topology management scheme based on clustering technique for software defined wireless sensor network

Authors: Sadia Din, Anand Paul, Awais Ahmad, Jeong Hong Kim

Published in: Peer-to-Peer Networking and Applications | Issue 2/2019

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Abstract

Load balancing and energy conservation techniques are one of the significant constraints in the design of in software defined wireless sensor network (SD-WSN). Usually, clustering method helps the network in the minimum utilization of energy that results in enhancing network lifetime. Moreover, various nodes in the multi-hop network that are near to the base station drain their battery very quickly thus lead to creating hot spot problem in a network. To overcome such constraints, this paper proposes a multilayer clustering architecture for selection of forwarding node, rotation of cluster head, and inter and intra-cluster routing communication. The proposed scheme efficiently tackle the rotation of forwarder node by incorporating routing table (table list) at each node. Moreover, the rotation is performed by the consideration of two threshold levels of the residual energy of a node. Also, the exploitation of decision maker node, forwarder node, backup forwarder node, and non-forwarder node enhancing the routing strategy in a network. The performance of the proposed scheme is tested and evaluated by C programming language. The results show that the proposed scheme successful achieve better results than TLPER and EADUC in energy consumption per node, end-to-end communication, hop count in cluster formation.

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Ahmad A, Mazhar Rathore M, Paul A, and Chen B-W (2015) Data transmission scheme using the mobile sink in a static wireless sensor network. Journal of Sensors 2015

Jabbar S, Minhas AA, Imran M, Khalid S, Saleem K (2015) Energy efficient strategy for throughput improvement in wireless sensor networks. Sensors 15(2):2473–2495CrossRef

Hamida EB, Chelius G (2008) Strategies for data dissemination to mobile sinks in wireless sensor networks. IEEE Wirel Commun, pp 31–37

Ye F, Luo H, Cheng J, Lu S, Zhang L (2002) A Two-Tier Data Dissemination Model for Large-scale Wireless Sensor Networks,” ACM/IEEE International Conference on Mobile Computing and Networking (Mobicom’02), pp. 148–159

Hamida EB Chelius G (2008) A line-based data dissemination protocol for wireless sensor networks with mobile sink. IEEE international conference on communications (ICC’08), pp. 2201-2205

Paul A, Jiang Y-C, Wang J-F, Yang J-F (2012) “Parallel Reconfigurable Computing based Mapping Algorithm for Motion Estimation in Advance Video Coding", ACM Transaction on Embedded Computing Systems, Vol. 11 Issue S2, Article No: 40

Paul A, Wang J-F, Yang J-F (2008) “Adaptive search range selection scalable video coding extension of H.264/AVC” TENCON Hyderabad, India, November 18-21

Jan H, Paul A, Minhas AA, Ahmad A, Jabbar S, Kim M (2014) "Analysis of intra cluster routing techniques in wireless sensor networks," Peer to Peer networking and Applications, p 13

Deshpande VV, Bhagat Patil AR (2013) "Energy efficient clustering in wireless sensor network using cluster of cluster heads." in 2013 tenth international conference on wireless and optical communications networks (WOCN), pp. 1-5. IEEE

10.

Boulis A, Srivastava M (2004) Node-level energy management for sensor networks in the presence of multiple applications. Wirel Netw 10(6):737–746CrossRef

11.

Ahmad A, Jabbar S, Paul A, and Rho S (2014) "Mobility aware energy efficient congestion control in mobile wireless sensor network." international journal of distributed sensor networks 2014

12.

Song M, He B (2007) "Capacity analysis for flat and clustered wireless sensor networks." in wireless algorithms, systems and applications, 2007. WASA 2007. International conference on, pp. 249-253. IEEE

13.

Iwata A, Chiang C-C, Pei G, Gerla M, Chen T-W (1999) Scalable routing strategies for ad hoc wireless networks. IEEE J Sel Areas Commun 17(8):1369–1379CrossRef

14.

Singh, Shio Kumar, M. P. Singh, and D. K. Singh. A survey of energy-efficient hierarchical cluster-based routing in wireless sensor networks. International Journal of Advanced Networking and Application (IJANA) 2, no. 02 (2010): 570–580

15.

Jabbar S, Minhas AA, Paul A and Rho S (2014) "MCDA: multilayer cluster designing algorithm for network lifetime improvement of homogenous wireless sensor networks," Journal Of Supercomputing, vol 11227

16.

Heinzelman W, Chandrakasan A, Balakrishnan H (2000) "Energy-efficient communication protocol for wireless microsensor networks," in proceedings of the 33rd international conference on system sciences, Hawaii

17.

Heinzelman WB, Chandrakasan AP and Balakrishnan H (2002) "An Application-Specific Protocol Architecture for Wireless Microsensor Networks," IEEE Transaction on Wireless Communications, vol. 01, no. 04

18.

Loscri VM and Marano SG (2005) "A two-levels hierarchy for low-energy adaptive clustering hierarchy (TL-LEACH)," in IEEE 62nd vehicular technology conference

19.

Muruganathan SD, Ma DC, Bhasin R, Fapojuwo A (2005) A centralized energy-efficient routing protocol for wireless sensor networks. Communications, IEEE RadioCrossRef

20.

A Paul, A Ahmad, MM Rathore, S Jabbar, "Smartbuddy: defining human behaviors using big data analytics in social internet of things", IEEE Wireless Communications 23 (5), 68–74

21.

Akhtar A, Minhas AA, Jabbar S (2010) "Energy Aware Intra-Cluster Routing For Wireless Sensor Networks," International Journal for Hybrid Information Technology, vol. 13, no. 1

22.

Saleh AMS, Ali BM, Rasid MFA, Ismail A (2012) A self-optimizing scheme for energy balanced routing in wireless sensor networks using SensorAnt. Sensors 12(8):11307–11333CrossRef

23.

Paul A "Graph based M2M optimization in an IoT environment", Proceedings of the 2013 Research in Adaptive and Convergent Systems, 45–46

24.

Yu J, Qi Y, Wang G, Guo Q and Gu X (2011) "an energy-aware distributed unequal clustering protocol for wireless sensor networks," international journal of distributed sensor networks, vol. 2011

25.

Radi M, Dezfouli B, Bakar KA, Lee M (2012) Multipath routing in wireless sensor networks: survey and research challenges. Sensors 12(1):650–685CrossRef

26.

Liu X (2012) A survey on clustering routing protocols in wireless sensor networks. Sensors 12(08):11113–11153CrossRef

27.

Yu M, Leung K, Malvankar A (2007) "A Dynamic Clustering and Energy Efficient Routing Technique for Sensor Networks," IEEE Transactions On Wireless Communications, vol. 06, no. 08

28.

A Paul, TAA Victoire, AE Jeyakumar, "Particle swarm approach for retiming in VLSI", 2003 I.E. 46th Midwest symposium on circuits and systems, Vol 3, 1532–1535

Title: RETRACTED ARTICLE: Energy efficient topology management scheme based on clustering technique for software defined wireless sensor network
Authors: Sadia Din
Anand Paul
Awais Ahmad
Jeong Hong Kim
Publication date: 28-10-2017
Publisher: Springer New York
Published in: Peer-to-Peer Networking and Applications / Issue 2/2019
Print ISSN: 1936-6442
Electronic ISSN: 1936-6450
DOI: https://doi.org/10.1007/s12083-017-0607-z

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