Skip to content
Back to outputs

A new approach for a better recovery of cluster head nodes in underwater sensor networks

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Standard

A new approach for a better recovery of cluster head nodes in underwater sensor networks. / Ovaliadis, Kyriakos; Savage, Nick; Tsiantos, Vassilios.

2014 international conference on telecommunications and multimedia. Heraklion, Greece : IEEE, 2014. p. 167-172.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Harvard

Ovaliadis, K, Savage, N & Tsiantos, V 2014, A new approach for a better recovery of cluster head nodes in underwater sensor networks. in 2014 international conference on telecommunications and multimedia. IEEE, Heraklion, Greece, pp. 167-172, 2014 International Conference on Telecommunications and Multimedia, Heraklion, Greece, 28/07/15. https://doi.org/10.1109/TEMU.2014.6917755

APA

Ovaliadis, K., Savage, N., & Tsiantos, V. (2014). A new approach for a better recovery of cluster head nodes in underwater sensor networks. In 2014 international conference on telecommunications and multimedia (pp. 167-172). IEEE. https://doi.org/10.1109/TEMU.2014.6917755

Vancouver

Ovaliadis K, Savage N, Tsiantos V. A new approach for a better recovery of cluster head nodes in underwater sensor networks. In 2014 international conference on telecommunications and multimedia. Heraklion, Greece: IEEE. 2014. p. 167-172 https://doi.org/10.1109/TEMU.2014.6917755

Author

Ovaliadis, Kyriakos ; Savage, Nick ; Tsiantos, Vassilios. / A new approach for a better recovery of cluster head nodes in underwater sensor networks. 2014 international conference on telecommunications and multimedia. Heraklion, Greece : IEEE, 2014. pp. 167-172

Bibtex

@inproceedings{c7e64be848504626bc5c8cdbd3a8ce4d,
title = "A new approach for a better recovery of cluster head nodes in underwater sensor networks",
abstract = "Energy efficiency is an important issue during the design and the overall performance evaluation of an UWSN system. Clustering sensor nodes have proven to be an effective method to improve the load balancing and scalability of the network while minimizing the system's overall energy consumption. In this paper, a new clustering algorithm is proposed to provide an improved cluster system against cluster-head failures. This study suggests that system CH failures could be further minimized when simultaneously a CH (primary CH) and a vice/backup CH are selected. Thus, when a primary CH fails due to an irreparable fault, a backup CH will take its place and it will operates as a head node. This study proposes two major procedures in order this to be accomplished, the detection failure and the recovery procedures. The first one initially detects any failures that occurred in the network and then reports this information to the relevant nodes to initiate recovery. The recovery procedure actually decides who and when will trigger the recovery function according to the origin of the CH node failure which can be either the energy depletion of the CH's battery or a software/hardware malfunction. The simulation results clearly indicate that there is an improvement in terms of network lifetime expectancy and energy consumption.",
author = "Kyriakos Ovaliadis and Nick Savage and Vassilios Tsiantos",
year = "2014",
month = oct,
day = "9",
doi = "10.1109/TEMU.2014.6917755",
language = "English",
isbn = "9781479932016",
pages = "167--172",
booktitle = "2014 international conference on telecommunications and multimedia",
publisher = "IEEE",
note = "2014 International Conference on Telecommunications and Multimedia ; Conference date: 28-07-2015 Through 30-07-2015",

}

RIS

TY - GEN

T1 - A new approach for a better recovery of cluster head nodes in underwater sensor networks

AU - Ovaliadis, Kyriakos

AU - Savage, Nick

AU - Tsiantos, Vassilios

PY - 2014/10/9

Y1 - 2014/10/9

N2 - Energy efficiency is an important issue during the design and the overall performance evaluation of an UWSN system. Clustering sensor nodes have proven to be an effective method to improve the load balancing and scalability of the network while minimizing the system's overall energy consumption. In this paper, a new clustering algorithm is proposed to provide an improved cluster system against cluster-head failures. This study suggests that system CH failures could be further minimized when simultaneously a CH (primary CH) and a vice/backup CH are selected. Thus, when a primary CH fails due to an irreparable fault, a backup CH will take its place and it will operates as a head node. This study proposes two major procedures in order this to be accomplished, the detection failure and the recovery procedures. The first one initially detects any failures that occurred in the network and then reports this information to the relevant nodes to initiate recovery. The recovery procedure actually decides who and when will trigger the recovery function according to the origin of the CH node failure which can be either the energy depletion of the CH's battery or a software/hardware malfunction. The simulation results clearly indicate that there is an improvement in terms of network lifetime expectancy and energy consumption.

AB - Energy efficiency is an important issue during the design and the overall performance evaluation of an UWSN system. Clustering sensor nodes have proven to be an effective method to improve the load balancing and scalability of the network while minimizing the system's overall energy consumption. In this paper, a new clustering algorithm is proposed to provide an improved cluster system against cluster-head failures. This study suggests that system CH failures could be further minimized when simultaneously a CH (primary CH) and a vice/backup CH are selected. Thus, when a primary CH fails due to an irreparable fault, a backup CH will take its place and it will operates as a head node. This study proposes two major procedures in order this to be accomplished, the detection failure and the recovery procedures. The first one initially detects any failures that occurred in the network and then reports this information to the relevant nodes to initiate recovery. The recovery procedure actually decides who and when will trigger the recovery function according to the origin of the CH node failure which can be either the energy depletion of the CH's battery or a software/hardware malfunction. The simulation results clearly indicate that there is an improvement in terms of network lifetime expectancy and energy consumption.

U2 - 10.1109/TEMU.2014.6917755

DO - 10.1109/TEMU.2014.6917755

M3 - Conference contribution

SN - 9781479932016

SP - 167

EP - 172

BT - 2014 international conference on telecommunications and multimedia

PB - IEEE

CY - Heraklion, Greece

T2 - 2014 International Conference on Telecommunications and Multimedia

Y2 - 28 July 2015 through 30 July 2015

ER -

ID: 2105730