Magnetic noise compensation using FIR model parameter estimation method

For magnetic noise compensation in the field of detection (magnetic anomaly detection) of magnetic dipole targets (such as sunken ships) by magnetic sensors carried on an aircraft, a quadratic method of compensation of scalar magnetic sensors has been reported. However, in order to use a highly sens...

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Veröffentlicht in:	Electronics & communications in Japan. Part 3, Fundamental electronic science Fundamental electronic science, 2002-03, Vol.85 (3), p.1-11
Hauptverfasser:	Inaba, Takayuki, Shima, Akihiro, Konishi, Masaharu, Yanagisawa, Hajime, Takada, Jun-ichi, Araki, Kiyomichi
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Sprache:	eng
Schlagworte:	FIR model FOM least squares method magnetic noise compensation
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creator	Inaba, Takayuki Shima, Akihiro Konishi, Masaharu Yanagisawa, Hajime Takada, Jun-ichi Araki, Kiyomichi
description	For magnetic noise compensation in the field of detection (magnetic anomaly detection) of magnetic dipole targets (such as sunken ships) by magnetic sensors carried on an aircraft, a quadratic method of compensation of scalar magnetic sensors has been reported. However, in order to use a highly sensitive vector magnetic sensor such as a superconducting quantum interference device, it is necessary to obtain the scalar magnetic field (intensity of the magnetic field) accurately from the three‐axis vector field. Also, in quadratic compensation, a special flight is needed, imposing a significant burden on the platform crew members for the acquisition of data for quadratic compensation. In the present paper, an FIR (Finite Impulse Response) model parameter estimation method is proposed that allows magnetic noise compensation for a three‐axis vector magnetic sensor without a special flight. The experimental data confirm the effectiveness of the proposed FIR model parameter estimation method. © 2001 Scripta Technica, Electron Comm Jpn Pt 3, 85(3): 1–11, 2002
doi_str_mv	10.1002/ecjc.1074
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subjects	FIR model FOM least squares method magnetic noise compensation
title	Magnetic noise compensation using FIR model parameter estimation method
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