J.Srimathi1
and V.Valli Mayil2
1Ph.d, Research Scholar, Bharathiar University, India
2Head & Associate Professor, Dept. of Computer Science &Applications, Periyar
Maniammai University, Thanjavur, India
ABSTRACT
The energy is a major resource to obtain efficient data gathering and increasing network lifetime (NL). The
various techniques are introduced for data aggregation, but energy optimized sensor node (SN) selection
was not carried out to further enhance NL. In order to improve the energy efficient data gathering in WSN,
a Fuzzy Gene Energy Optimized Reweight Boosting Classification (FGEORBC) Technique is introduced
with lesser time consumption. In FGEORBC technique, the Residual Energy (RE) of SN in the WSN is
computed. After calculating SN residual energy, fuzzy logic is applied to determine higher energy nodes
and lower energy nodes using threshold value. For finding the optimal higher energy SNs, then Ranked
Gaussian gene optimization technique is applied. If the node satisfies the fitness criterion, then the node is
selected as an optimal higher energy SN. Otherwise, the rank selection, ring crossover, and Gaussian
mutation process are carried out until the condition gets satisfied. After that, the sink node collects the data
packets (DP) from the optimal higher energy SNs. In the sink node, Reweight Boosting Classification is
carried out to classify the sensed DP and it sends to the base station (BS) for further processing. Simulation
of FGEORBC technique is carried out using different parameters such as energy consumption (EC), NL,
data gathering time and classification accuracy (CA) with respect to a number of SN and a number of DP.
The results observed that FGEORBC technique improves the data gathering and NL with minimum time as
well as EC than the state-of-the-art methods.
KEYWORDS
WSN, data gathering, residual energy, fuzzy logic, Ranked Gaussian gene optimization, data classification,
Reweight Boosting Classification
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