Abstract
This paper presents, Application of Gur Game Based Algorithm on Wireless Sensor Networks (WSNs) deployed to monitor Homogenous and Heterogeneous Grid in order to achieve Quality of Service (QoS) = 0.40 and 0.50. Further, the objectives of all these algorithms are to maximize the coverage of the sensor area while conserving energy consumed by sensor nodes. This is achieved via carefully activating/deactivating the sensors while maximizing the coverage area.
Highlights
AND MOTIVATIONA Wireless Sensor Networks (WSNs) consists of spatially distributed autonomous sensors to monitor physical or environmental conditions, such as temperature, sound, vibration, pressure, motion or pollutants [1,2,3] and to cooperatively pass their data through the network to a main location
In order to achieve the Quality of Service (QoS) = 0.40 we have should have 16 regions and these 16 regions must be monitored by the 40 sensors as we know that 16/40 = 0.40 and if we take this as a vice versa we will have 40/16 = 2.5 i.e. each region is monitored by the 2.5 sensors
The simulations results achieved by the application of Gur Game based Algorithms on 4 x 4 Homogenous Grid presented in figure (3-9) shows that the number of sensors to be activated in order to achieve the QoS = 0.40 is same as the number of sensors needed to activate and to achieve the QoS of 0.50
Summary
A WSN consists of spatially distributed autonomous sensors to monitor physical or environmental conditions, such as temperature, sound, vibration, pressure, motion or pollutants [1,2,3] and to cooperatively pass their data through the network to a main location. We have shown the (1) Application of Generalized Gur Game based Algorithm on WSNs monitoring 4 x 4 Homogenous Grid to achieve QoS = 0.40 and 0.50 ; we have taken a different approach to design the algorithm and its application on the WSNs. In order to achieve the QoS = 0.40 (from a Homogenous 4 x 4 Grid having 16 regions) we have should have 16 regions and these 16 regions must be monitored by the 40 sensors as we know that 16/40 = 0.40 and if we take this as a vice versa we will have 40/16 = 2.5 i.e. each region is monitored by the 2.5 sensors. Compare X with 0.50, If X=0.50, QoS is achieved, which implies that each Region is covered by more than 2.0 active Sensor nodes on an average Else QoS is not achieved
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