Laxmaiah Kocharla scite author profile

Laxmaiah Kocharla

2Publications

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28Citation Statements Given

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An efficient energy lifetime enhancement using node balancing approach

Kocharla¹,

Rao²

2018

IJET

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Wireless sensor network (WSN) is the cutting edge communication entity, which is adopted by various platform such as IoT and other secure wireless area. There are many advantages while dealing with such system which can provide an efficient communication over remove area. Involvement of multiple node in the communication occurred while sending a packet to destination. An efficiency in packet transfer is required which is in terms of shortest path, managing load on each node and finally finding efficiency in data transfer. Balancing the node and its energy is important aspect which help in preventing complete network and make it energy efficient. Previously given solution find its ability in proper communication but lacking in enhancing overall network lifetime. In this paper a mobile threshold energy route optimization using Matrix formulation approach is presented. The Given proposed solution is implemented on Ubuntu Platform using NS2 Simulator. Observed result find enhancement in PDR, Throughput and Less Overhead.

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Energy Aware Balanced Work Load Distribution Algorithm For Wireless Sensor Networks

Kocharla¹,

Veeramallu²

2021

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Various vitality mindful steering figurings and traditions have been proposed for Wireless sensor organizes as of late to achieve focuses like least vitality use, intensified system lifetime, diminished correspondence inactivity and overhead et cetera. The issue of hotspot can't be all around tended to under many steering calculations since a couple of hubs which are on the most short path or close to the base station tend to deplete their vitality quickly and hence cause arrange section. In this approach, we propose a Ring-based Energy Aware Routing (REAR) figuring for remote sensor systems which can achieve both vitality modifying and vitality capability for all sensor hubs. Our estimation considers the jump number and partition and additionally the extra vitality of the accompanying next bounce plays out some other coordinating figurings in the parts of vitality use and framework lifetime et cetera.

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