G. Shenbagalakshmi scite author profile

G. Shenbagalakshmi

5Publications

27Citation Statements Received

16Citation Statements Given

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101

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Design of smart sensors for real time drinking water quality monitoring and contamination detection in water distributed mains

Priya¹,

Shenbagalakshmi²,

Revathi³

2017

IJET

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Drinking Water Distribution Systems facilitate to carry portable water from water resources such as reservoirs, river, and water tanks to industrial, commercial and residential consumers through complex buried pipe networks. Determining the consequences of a water contamination event is an important concern in the field of water systems security and in drinking water distribution systems. The proposed work is based on the development of low cost fuzzy based water quality monitoring system using wireless sensor networks which is capable of measuring physiochemical parameters of water quality such as pH, temperature, conductivity, oxidation reduction potential and turbidity. Based on selected parameters a sensing unit is developed along with several microsystems for analog signal conditioning, data aggregation, sensor data analysis and logging, and remote representation of data to the consumers. Finally, algorithms for fusing the real time data and decision making using fuzzy logic at local level are developed to assess the water contamination risk. Based on the water contamination level in the distribution pipeline the drinking water quality is classified as acceptable/reject/desirable. When the contamination is detected, the sensing unit with ZigBee sends signals to close the solenoid valve inside the pipeline to prevent the flow of contaminated water supply and it intimates the consumers about drinking water quality through mobile app. Experimental results indicate that this low cost real time water quality monitoring system acts as an ideal early warning system with best detection accuracy. The derived solution can also be applied to different IoT (Internet of Things) scenario such as smart cities, the city transport system etc.

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IoT Based Automation of Real Time In-Pipe Contamination Detection System in Drinking Water

Priya¹,

Shenbagalakshmi²,

Revathi³

2018

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Applied fuzzy heuristics for automation of hygienic drinking water supply system using wireless sensor networks

Priya¹,

Shenbagalakshmi²,

Revathi³

2018

J Supercomput

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Generic Method for SDN Controller Selection Using AHP and TOPSIS Methods

Durkadevi¹,

Revathi²,

Shenbagalakshmi³

2022

Int. J. Info. Tech. Dec. Mak.

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The control plane plays an essential role in the implementation of Software Defined Network (SDN) architecture. Basically, the control plane is an isolated process and operates on control layer. The control layer encompasses controllers which provide a global view of the entire SDN. The Controller selection is more crucial for the network administrator to meet the specific use case. This research work mainly focuses on obtaining a better SDN controller. Initially, the SDN controllers are selected using integrated Analytic Hierarchy Process and Technique for Order Preference Similarity to Ideal Solution (AHP and TOPSIS) method. It facilitates to select minimal number of controllers based on their features in the SDN application. Finally, the performance evaluation is carried out using the CBENCH tool considering the best four ranked controllers obtained from the previous step. In addition, it is validated with the real-time internet topology such as Abilene and ERNET considering the delay factor. The result shows that the “Floodlight” controller responds better for latency and throughput. The selection of an optimum controller-Floodlight, using the real-world Internet topologies, outperforms in obtaining the path with a 28.57% decrease in delay in Abilene and 16.94% in ERNET. The proposed work can be applied in high traffic SDN applications.

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RETRACTED ARTICLE: Enhanced route discovery using connected dominating set and 2-hop repair in wireless ad hoc networks

Shenbagalakshmi¹,

Revathi²

2020

J Ambient Intell Human Comput

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