Abstract
The lower cost and easier installation of the WSNs than the wired counterpart pushes industry and academia to pay more attention to this promising technology. Large scale networks of small energy-constrained sensor nodes require techniques and protocols which are scalable, robust, and energy-efficient. The most efficient approach provided by clustering the nodes is hierarchy. The one node will send the data to another node and the another node will send to its neightbouring node. In smart cities, wireless sensor networks (WSNs) act as a type of core infrastructure that collects data from the city to implement smart services. Our thesis work included the region based clustering, cluster head selection and energy efficient communication using static base station and movable mobile nodes. Since it was earlier proposed that clustering improves the network lifetime. We modified the region based clustering by dividing the network area into n regions with cluster head chosen for each region and proposed a new method for cluster head selection having less computational complexity. It was also found that the modified approach has improved performance to that of the other clustering approaches. We have used the mobile nodes for each section with controlled trajectory path as a reference to compare the performance of each of the clustering methods.
Highlights
Wireless technology has expanded the boundaries of our world by multiple leaps
We modified the region based clustering by dividing the network area into n regions with cluster head chosen for each region and proposed a new method for cluster head selection having less computational complexity
It was found that the modified approach has improved performance to that of the other clustering approaches
Summary
Wireless technology has expanded the boundaries of our world by multiple leaps. Through this innovation, humans are given freedom to work off from their desks or perhaps outside. The applications are varied and promise to be even additional varied These networks area unit collections of little devices, called motes, with restricted processing and power. Application area like strategic military defenses, pinpoint and the origin of a shooting and its monitoring are covered inside WSN All of those uses rely on the power to gather knowledge like lightweight, vibration, moisture, temperature, and more, likewise because the ability to speak with one another. This last ability is what makes a set of nodes most additional powerful network. The positive advantages of this are quite obvious; such a technology are going to be a can accomplish fine graininess chase of what's occurring at distant and usually in inaccessible locations
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