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Phd in Energy Efficiency Using RPL Routing Protocols
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Phd in Energy Efficiency Using RPL Routing Protocols
Introduction
Consumption of excess energy is one of the biggest challenges in the Internet of Things. It has proved itself to be an emerging topic of computing that is deployed in multiple fields like industrial, defense, and households.
In most of the IoT, nodes are scattered in the overall framework where it is impractical to charge or replace the battery. The layered architecture is divided into multiple layers and out of those MAC or Medium Access Control offers energy efficient communication path.There are a series of operations in the MAC layer that results in the excess consumption of power.
Phd in Energy efficiency using RPL routing protocols
Idea
To overcome the issue of energy efficiency in the existing model, there is a need to deduce the impact of sending strobes. Strobes are transmitted as RDC protocol’s sub category in the MAC layer of the path.
Issues in the current technology
IoT technology is based on the communication of many resource-constrained embedded devices that leads to over consumption of energy. Due to an increment in the number of interconnected smart devices, other significant concerns have also arisen.
Approach
In the proposed architecture, the Elaborated Cross Layer RPL Objective Function to Achieve Energy Efficiency in IoT or ELITE model is used to achieve energy efficiency in the technology based on the Internet of Things. This model is expected to reduce the average amount of required strobes per packet by upto 25% which can efficiently and swiftly resolve the issue of over consumption of energy.
ELITE has been evaluated against numerous OFs through a set of a comprehensive experiment bysimulation based on the RPL technique.
RPL is an IPv6-based and distance vector routing protocol whose structure has been represented in the form of a Directed Acyclic Graph or DAG which has also been termed as Destination Oriented DAG in the situations where there is a single sink.
A number of supported nodes are introduced in this and then OF is used to compute the rank of a node. In the end, the transmission and reception activities’ value is obtained.
Proposal
In order to decrease the energy consumption level, the radio module has to be kept off for the maximum possible duration. This depends upon the MAC layer that is also referred to as Radio Duty Recycling protocols. The synchronized nodes will impose extra overhead and to overcome that an asynchronous RDC protocol is proposed that allows the nodes to communicate in a free manner.
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