Journal of Theoretical & Computational Science

Journal of Theoretical & Computational Science
Open Access

ISSN: 2376-130X

Abstract

Node Level Energy Efficiency Protocol for Internet of Things

Vellanki M, Kandukuri SPR and Razaque A

Internet of things (IoT) involves connecting all the devices and networks which work based on our surroundings, and can make our lives safer, healthier and faster. We are going to deliberate and explain energy issues that emerge while using Internet of Things. Universal detecting empowered by Wireless Sensor Network (WSN) innovations cuts crosswise over numerous territories of current living. This offers the capacity to quantify, derive and comprehend ecological pointers, from sensitive ecologies and characteristic assets to urban situations. The expansion of these gadgets in a communicating–actuating system that makes the Internet of Things (IoT) intriguing, wherein sensors and actuators mix consistently with nature around us, and the data is shared crosswise over stages to build up a typical working picture. Filled by the late adjustment of an assortment of empowering remote advancements, for example, RFID labels and inserted sensor and actuator hubs, the IoT has ventured out of its early stages and is the following progressive innovation in changing the Internet into a completely coordinated Future Internet. All these advancements in internet of things involves high energy consumption. The primary goal of our research paper is to propose a novel node level energy efficient (NLEE) routing protocol to improve energy efficiency. The validation of NLEE algorithm is confirmed using an IoT environment with discrete C ++ platform.

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