Improved Component Compensation of Magnetic Interferential Field for Geomagnetic Vector Measurement System Using 3-D Helmholtz Coil

Abstract

Owing to the ferromagnetism interferential field, the component compensation of magnetic field distortion is vital for a geomagnetic field vector measurement system. However, magnetic interferences, such as eddy-current field, have not been considered in the traditional component compensation methods due to the reference component magnetic field, and its variation with time is difficult to obtain. In this article, a new compensation method using a 3-D Helmholtz coil is proposed, in which the eddy-current field related to the reference component magnetic field and its variation with time are integrated into a compensation model. In addition, the rotation equipment is not necessarily needed to construct the equations of an error model, and the 3-D Helmholtz coil is used to generate any required compensation data to estimate the compensation model error parameters, which makes the compensation procedure more simple and convenient. In order to verify the effectiveness of the proposed method, the experiment is conducted, and the results demonstrate that the proposed method contributes to the accuracy improvement of the geomagnetic vector measurement system. After compensation, the rms errors of North, East, Vertical components, and total intensity are reduced from 3648.3, 2986.2, 3496.2, and 3894.1 to 38.72, 29.58, 35.42, and 42.82 nT, respectively.