In this Thesis, we have studied, designed and implemented
an energy and economic efficient smart plug system and achieves
high rates of performance. At the beginning, a comprehensive
reference studying the Smart Plug devices. The Smart Plug device
was studied, designed and implemented using, which Turn-Off
electrical loads in Standby mode to minimize power consumption.
The status of all devices connected to the smart plug is shown on
the computer display using smart monitor application.
The design and implementation of Smart Plug system has saved
1.3% of the total energy consumed in the home per month while
achieving economic feasibility and improving the cost of the
economic return of the total consumers about 0.7% through the use
of the smart plug that has been implemented.
Routing protocols play an essential role in meeting the quality of service
requirements in the network, but achieving these requirements may require frequent send
and receive operations to build and maintain routing tables, which consume sensors
r
esource If we take into consideration the limitations of wireless sensor networks in terms
of the amount of available energy and storage capacity.
In this research a performance comparison of the on-demand Distance Vector
Routing protocol AODV and Hierarchical Routing protocolHR was carried out in terms of
the packet delivery and loose rate, delay and jitter, and the amount of expended energy in
the Wireless sensor network operates according to IEEE802.15.4 standard in cases where
some of sensors get out of work for limited periods of time.
The results showed that the hierarchical routing protocols perform better in terms of
delay time and transfer rate and the amount of consumed energy than on-demand Distance
Vector Routing protocol routing protocol, but suffer larger packet loss due to routing path
corruption as a result of sensors crashes.