Accurate location estimation of moving object with energy constraint & adaptive update algorithms to save data

TL;DR

This paper presents an energy-efficient sensor network protocol for accurately tracking moving objects using adaptive algorithms and minimal sensor nodes, extending network lifetime and reducing data overhead.

Contribution

It introduces a novel adaptive update algorithm that reduces sensor usage while maintaining accurate location estimation under energy constraints.

Findings

The proposed method achieves energy savings across various mobility patterns.

Using three sensors provides accurate location estimation with reduced energy consumption.

The protocol extends network lifetime by minimizing sensor node usage.

Abstract

In research paper "Accurate estimation of the target location of object with energy constraint & Adaptive Update Algorithms to Save Data" one of the central issues in sensor networks is track the location, of moving object which have overhead of saving data, an accurate estimation of the target location of object with energy constraint .We do not have any mechanism which control and maintain data .The wireless communication bandwidth is also very limited. Some field which is using this technique are flood and typhoon detection, forest fire detection, temperature and humidity and ones we have these information use these information back to a central air conditioning and ventilation system. In this research paper, we propose protocol based on the prediction and adaptive based algorithm which is using less sensor node reduced by an accurate estimation of the target location. we are using minimum three sensor node to get the accurate position .We can extend it upto four or five to find more accurate location but we have energy constraint so we are using three with accurate estimation of location help us to reduce sensor node..We show that our tracking method performs well in terms of energy saving regardless of mobility pattern of the mobile target .We extends the life time of network with less sensor node. Once a new object is detected, a mobile agent will be initiated to track the roaming path of the object. The agent is mobile since it will choose the sensor closest to the object to stay. The agent may invite some nearby slave sensors to cooperatively position the object and inhibit other irrelevant (i.e., farther) sensors from tracking the object. As a result, the communication and sensing overheads are greatly reduced.