A geomagnetic vector compensation method compatible with nonlinear interferences based on back propagation network and 3D Helmholtz coil

Author:

Xu Yujing1ORCID,Liu Zhongyan1ORCID,Zhang Qi1ORCID,Guan Feng2,Yan Zixin1ORCID,Huang Bo1,Pan Mengchun1ORCID,Hu Jiafei1ORCID,Chen Zhuo1ORCID,Ding Qiaochu1ORCID,Qiu Xiaotian1ORCID,Tang Ying1ORCID

Affiliation:

1. College of Intelligence Science and Technology, National University of Defense Technology 1 , Changsha 410073, China

2. Naval Research Academy 2 , Beijing 100161, China

Abstract

Magnetic interferential compensation plays a vital role in geomagnetic vector measurement applications. Traditional compensation accounts for only the permanent interferences, induced field interferences, and eddy-current interferences. However, nonlinear magnetic interferences are found, which also have a great impact on measurement, and it cannot be fully characterized by a linear compensation model. This paper proposes a new compensation method based on a back propagation neural network, which can reduce the influence of the linear model on compensation accuracy due to its good nonlinear mapping capabilities. The high-quality network training requires representative datasets, yet it is a common problem in the engineering field. To provide adequate data, this paper adopts a 3D Helmholtz coil to restore the magnetic signal of a geomagnetic vector measurement system. A 3D Helmholtz coil is more flexible and practical than the geomagnetic vector measurement system itself when generating abundant data under different postures and applications. Simulations and experiments are both conducted to prove the superiority of the proposed method. According to the experiment, the proposed method can reduce the root mean square errors of north, east, and vertical components and the total intensity from 73.25, 68.54, 70.45, and 101.77 nT to 23.35, 23.58, 27.42, and 29.72 nT, respectively, compared with the traditional method.

Funder

Natural Science Foundation of Hunan Province

Publisher

AIP Publishing

Subject

Instrumentation

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