Abstract:
Because of limitation in the source of power in utmost of the Underwater Wireless
Sensor Network (UWSN) applications, there is need for scholars to develop routing
technique that consume as much less power as possible in order to obtain longer
network lifetime. Also, harmonising the feasting of energy among the deployed
sensor nodes is of great importance too for its direct role in many routing metrics
including: amount of data packets received to base station, network holes, latency,
overall network energy consumption, and many more. In previous routing techniques,
mostly single routing algorithm is proposed to be working from the beginning till end
of the deployed network. While the condition and properties of the network and the
deployed sensor nodes are changing with time in the network, so there is need for
more than one algorithm in a protocol in order to obtain good result from the
deployed UWSN. In this thesis we propose Efficient Energy Consumption
Algorithm on Residual Energy Status for UWSN that have different routing methods
base on the energy status of the deployed sensor nodes. Results obtained via
simulation prove that it is more effective than previously proposed routing technique
for UWSN.
