Internet of Things platforms deployed on the system will exhibit numerous benefits such as real time monitoring, faster operation and cost effectiveness. A system oriented IoT platform is developed which features database connotation, web services, setup portal, cloud hosting, drivers or listener for programming languages and hardware devices. The functional parameters of transformer in electrical power system vary around the limit and beyond, which is observed by the IoT platform for remote analysis and to report deformation in the winding. The frequency response measurement from the transformer terminal unit is send to cloud database which is then fetched to remote application through IoT client. At remote monitoring tool, the diagnostic algorithm is executed to estimate the location and extent of deformation. IoT based frequency response analyzer and transformer diagnostic tools developed reports the status of the transformer health condition. Depending upon the extent of deformation, the transformer is isolated from power system.
%0 Book Section
%1 Venkataswamy2020
%A Venkataswamy, R.
%A Rao, K. Uma
%A Meena, P.
%B Lecture Notes in Networks and Systems
%D 2020
%K Internet deformation health monitoring monitoring,Transformer myown of system,Transformer things,Remote winding
%P 165--183
%R 10.1007/978-3-030-23162-0_16
%T Development of Internet of Things Platform and Its Application in Remote Monitoring and Control of Transformer Operation
%U http://link.springer.com/10.1007/978-3-030-23162-0_16
%V 80
%X Internet of Things platforms deployed on the system will exhibit numerous benefits such as real time monitoring, faster operation and cost effectiveness. A system oriented IoT platform is developed which features database connotation, web services, setup portal, cloud hosting, drivers or listener for programming languages and hardware devices. The functional parameters of transformer in electrical power system vary around the limit and beyond, which is observed by the IoT platform for remote analysis and to report deformation in the winding. The frequency response measurement from the transformer terminal unit is send to cloud database which is then fetched to remote application through IoT client. At remote monitoring tool, the diagnostic algorithm is executed to estimate the location and extent of deformation. IoT based frequency response analyzer and transformer diagnostic tools developed reports the status of the transformer health condition. Depending upon the extent of deformation, the transformer is isolated from power system.
@incollection{Venkataswamy2020,
abstract = {Internet of Things platforms deployed on the system will exhibit numerous benefits such as real time monitoring, faster operation and cost effectiveness. A system oriented IoT platform is developed which features database connotation, web services, setup portal, cloud hosting, drivers or listener for programming languages and hardware devices. The functional parameters of transformer in electrical power system vary around the limit and beyond, which is observed by the IoT platform for remote analysis and to report deformation in the winding. The frequency response measurement from the transformer terminal unit is send to cloud database which is then fetched to remote application through IoT client. At remote monitoring tool, the diagnostic algorithm is executed to estimate the location and extent of deformation. IoT based frequency response analyzer and transformer diagnostic tools developed reports the status of the transformer health condition. Depending upon the extent of deformation, the transformer is isolated from power system.},
added-at = {2022-03-19T17:33:04.000+0100},
author = {Venkataswamy, R. and Rao, K. Uma and Meena, P.},
biburl = {https://www.bibsonomy.org/bibtex/2dd274a88a2e8e5b1bd3ca1cf2e4eac82/venkataswamyr},
booktitle = {Lecture Notes in Networks and Systems},
doi = {10.1007/978-3-030-23162-0_16},
file = {:C\:/Venkat/July 2020 to Dec 2020/PhD VTU/Published Papers/REV_2019_SpringerNature.pdf:pdf},
interhash = {198333766d831bd8049116b3bee4db6b},
intrahash = {dd274a88a2e8e5b1bd3ca1cf2e4eac82},
issn = {23673389},
keywords = {Internet deformation health monitoring monitoring,Transformer myown of system,Transformer things,Remote winding},
mendeley-groups = {My Publications,Test},
pages = {165--183},
timestamp = {2022-03-19T17:33:04.000+0100},
title = {Development of Internet of Things Platform and Its Application in Remote Monitoring and Control of Transformer Operation},
url = {http://link.springer.com/10.1007/978-3-030-23162-0_16},
volume = 80,
year = 2020
}