Efficient fault detection method for a degaussing coil system based on an analytical sensitivity formula

Nak Sun Choi; Dong Wook Kim; Chang Seob Yang; Hyun Ju Chung; Heung Geun Kim; Dong Hun Kim

doi:10.4283/JMAG.2013.18.2.135

Efficient fault detection method for a degaussing coil system based on an analytical sensitivity formula

Nak Sun Choi, Dong Wook Kim, Chang Seob Yang, Hyun Ju Chung, Heung Geun Kim, Dong Hun Kim

Department of Electrical Engineering

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

This paper proposes an efficient fault detection method for onboard degaussing coils which are installed to minimize underwater magnetic fields due to the ferromagnetic hull. To achieve this, the method basically uses field signals measured at specific magnetic treatment facilities instead of time-consuming numerical field solutions in a three-dimensional analysis space. In addition, an analytical design sensitivity formula and the linear property of degaussing coil fields is being exploited for detecting fault coil positions and assessing individual degaussing coil currents. Such peculiar features make it possible to yield fast and accurate results on the fault detection of degaussing coils. For foreseeable fault conditions, the proposed method is tested with a model ship equipped with 20 degaussing coils.

Original language	English
Pages (from-to)	135-141
Number of pages	7
Journal	Journal of Magnetics
Volume	18
Issue number	2
DOIs	https://doi.org/10.4283/JMAG.2013.18.2.135
State	Published - 2013

Keywords

Design sensitivity
Diagnosis
Electromagnetics
Inverse problem

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10.4283/JMAG.2013.18.2.135

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title = "Efficient fault detection method for a degaussing coil system based on an analytical sensitivity formula",

abstract = "This paper proposes an efficient fault detection method for onboard degaussing coils which are installed to minimize underwater magnetic fields due to the ferromagnetic hull. To achieve this, the method basically uses field signals measured at specific magnetic treatment facilities instead of time-consuming numerical field solutions in a three-dimensional analysis space. In addition, an analytical design sensitivity formula and the linear property of degaussing coil fields is being exploited for detecting fault coil positions and assessing individual degaussing coil currents. Such peculiar features make it possible to yield fast and accurate results on the fault detection of degaussing coils. For foreseeable fault conditions, the proposed method is tested with a model ship equipped with 20 degaussing coils.",

keywords = "Design sensitivity, Diagnosis, Electromagnetics, Inverse problem",

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AU - Kim, Dong Wook

AU - Yang, Chang Seob

AU - Chung, Hyun Ju

AU - Kim, Heung Geun

AU - Kim, Dong Hun

PY - 2013

Y1 - 2013

N2 - This paper proposes an efficient fault detection method for onboard degaussing coils which are installed to minimize underwater magnetic fields due to the ferromagnetic hull. To achieve this, the method basically uses field signals measured at specific magnetic treatment facilities instead of time-consuming numerical field solutions in a three-dimensional analysis space. In addition, an analytical design sensitivity formula and the linear property of degaussing coil fields is being exploited for detecting fault coil positions and assessing individual degaussing coil currents. Such peculiar features make it possible to yield fast and accurate results on the fault detection of degaussing coils. For foreseeable fault conditions, the proposed method is tested with a model ship equipped with 20 degaussing coils.

AB - This paper proposes an efficient fault detection method for onboard degaussing coils which are installed to minimize underwater magnetic fields due to the ferromagnetic hull. To achieve this, the method basically uses field signals measured at specific magnetic treatment facilities instead of time-consuming numerical field solutions in a three-dimensional analysis space. In addition, an analytical design sensitivity formula and the linear property of degaussing coil fields is being exploited for detecting fault coil positions and assessing individual degaussing coil currents. Such peculiar features make it possible to yield fast and accurate results on the fault detection of degaussing coils. For foreseeable fault conditions, the proposed method is tested with a model ship equipped with 20 degaussing coils.

KW - Design sensitivity

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KW - Electromagnetics

KW - Inverse problem

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Efficient fault detection method for a degaussing coil system based on an analytical sensitivity formula

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Keywords

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