Ashwini V. Nagpure scite author profile

Ashwini V. Nagpure

3Publications

16Citation Statements Received

54Citation Statements Given

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RBCs and Parasites Segmentation from Thin Smear Blood Cell Images

Panchbhai¹,

Damahe²,

Nagpure³

et al. 2012

IJIGSP

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Abstract-Manually examine the blood smear for the detection of malaria parasite consumes lot of time for trend pathologists. As the computational power increases, the role of automatic visual inspection becomes more important. An automated system is therefore needed to complete as much work as possible for the identification of malaria parasites. The given scheme based on used of RGB color space, G layer processing, and segmentation of Red Blood Cells (RBC) as well as cell parasites by auto-thresholding with offset value and use of morphological processing. The work compare with the manual results obtained from the pathology lab, based on total RBC count and cells parasite count. The designed system successfully detects malaria parasites and RBC cells in thin smear image.

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Topology Control in Wireless Sensor Network: An Overview

Nagpure¹,

Patil²

2014

IJCA

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Energy saving and improve the life time of the sensor node is main focus in the recent years. The most important technique used in wireless sensor networks to reduce energy consumption is Topology Control (i.e. control the topology by maintaining the communication links between network nodes to maintain the connectivity). In this article, first we overview the recent topology control techniques including future directions followed by performance metrics. Further, our overview help to identify a number of issues for achieving energy efficiency and network lifetime through topology control. General TermsWireless sensor network, Topology Control

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An Augmentation of Topology Control Algorithm for Energy Saving in WSN Integrated into Street Lighting Control

Nagpure¹,

Damahe²,

Patil³

2015

IJISA

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Energy saving and improve the life time of the sensor node is main focus in the recent years for the researchers hence one of the application domain (Street light monitoring and controlling) of sensor required attention towards this direction. For contributing in this domain we have proposed a scheme for Street light controlling using distributed topology control (TC). The optimize version of A3 protocol reduces the number of messages send/received by the sensors which ultimately leads to the reduction of energy requirement. Experiments are carried on street light scenario for different no. of nodes by maintaining communication using Zigbee protocol. The performance of our extension is evaluated using, no. of messages send/receive & energy consumed during topology building and our approach is having good results as compared to the approach used for this type of network.

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