As wireless sensor networks (WSNs) continue to attract more and more researchers attention, new ideas for
applications are continually being developed, many of which involve consistent coverage with good
network connectivity of a given area of interest. For the successful operation of the wireless Sensor
Network, the active sensor nodes must maintain both coverage and also connectivity. These are two closely
related essential prerequisites and they are also very important measurements of quality of service (QoS)
for wireless sensor networks. This paper presents the design and analysis of novel protocols that can
dynamically configure a sensor network to result in guaranteed degrees of coverage and connectivity. This
protocol is simulated using NS2 simulated and compared against a distributed probabilistic coveragepreserving
configuration protocol (DPCCP) with SPAN 1 protocol in the literature and show that it
activates lesser number of sensor nodes, consumes much lesser energy and maximises the network lifetime
significantly.
%0 Journal Article
%1 noauthororeditor
%A D.G.Anand,
%A Chandrakanth, H.G.
%A M.N.Giriprasad,
%D 2012
%J International Journal of Ad hoc, Sensor & Ubiquitous Computing (IJASUC)
%K Connectivity Coverage conservation control energy nodes power
%N 1
%P 10
%R 10.5121/ijasuc.2012.3101
%T AN ENERGY EFFICIENT DISTRIBUTED PROTOCOL FOR ENSURING COVERAGE AND CONNECTIVITY (E3C2) OF WIRELESS SENSOR NETWORKS
%U http://aircconline.com/ijasuc/V3N1/3112ijasuc01.pdf
%V 3
%X As wireless sensor networks (WSNs) continue to attract more and more researchers attention, new ideas for
applications are continually being developed, many of which involve consistent coverage with good
network connectivity of a given area of interest. For the successful operation of the wireless Sensor
Network, the active sensor nodes must maintain both coverage and also connectivity. These are two closely
related essential prerequisites and they are also very important measurements of quality of service (QoS)
for wireless sensor networks. This paper presents the design and analysis of novel protocols that can
dynamically configure a sensor network to result in guaranteed degrees of coverage and connectivity. This
protocol is simulated using NS2 simulated and compared against a distributed probabilistic coveragepreserving
configuration protocol (DPCCP) with SPAN 1 protocol in the literature and show that it
activates lesser number of sensor nodes, consumes much lesser energy and maximises the network lifetime
significantly.
@article{noauthororeditor,
abstract = {As wireless sensor networks (WSNs) continue to attract more and more researchers attention, new ideas for
applications are continually being developed, many of which involve consistent coverage with good
network connectivity of a given area of interest. For the successful operation of the wireless Sensor
Network, the active sensor nodes must maintain both coverage and also connectivity. These are two closely
related essential prerequisites and they are also very important measurements of quality of service (QoS)
for wireless sensor networks. This paper presents the design and analysis of novel protocols that can
dynamically configure a sensor network to result in guaranteed degrees of coverage and connectivity. This
protocol is simulated using NS2 simulated and compared against a distributed probabilistic coveragepreserving
configuration protocol (DPCCP) with SPAN [1] protocol in the literature and show that it
activates lesser number of sensor nodes, consumes much lesser energy and maximises the network lifetime
significantly.
},
added-at = {2018-02-19T06:13:03.000+0100},
author = {D.G.Anand and Chandrakanth, H.G. and M.N.Giriprasad},
biburl = {https://www.bibsonomy.org/bibtex/2929bb9b82ba831d0891e0df8054b84dc/usmankhawaja},
doi = {10.5121/ijasuc.2012.3101},
interhash = {527293cca4739c2656baaa589835d82e},
intrahash = {929bb9b82ba831d0891e0df8054b84dc},
issn = {0976 - 1764},
journal = {International Journal of Ad hoc, Sensor & Ubiquitous Computing (IJASUC) },
keywords = {Connectivity Coverage conservation control energy nodes power},
language = {English},
month = {February},
number = 1,
pages = 10,
timestamp = {2018-02-19T06:13:03.000+0100},
title = {AN ENERGY EFFICIENT DISTRIBUTED PROTOCOL FOR ENSURING COVERAGE AND CONNECTIVITY (E3C2) OF WIRELESS SENSOR NETWORKS},
url = {http://aircconline.com/ijasuc/V3N1/3112ijasuc01.pdf},
volume = 3,
year = 2012
}