Multi-parameter constrained three-dimensional shape inversion of magnetic bodies
LI Jinpeng1, FAN Hongbo2, LIU Li1, ZHANG Yingtang2, LI Zhining2, WU Bingyang3
1. Unit 93114 of PLA, Beijing 100195, China; 2. Army Engineering University(Shijiazhuang), Shijiazhuang, Hebei 050003, China; 3. Beijing Institute of Remote Sensoring Information, Beijing 100192, China
Abstract:Traditionally, the magnetic and geometric parameters for shape inversion of magnetic bodies are defined manually. We propose a three-dimensional shape inversion method of magnetic bodies based on multi-parameter constraints. First, an objective function is established through L1 norm and regularization constraint function, and the optimal solution is selected in the module to be updated to update the inversion model; then the method for estimating the multiple parameters of the magnetic target is proposed, which can directly estimate the position, magnetization direction and magnetization intensity of the magnetic target without prior information; and finally, the magnetic component (Bz) along z and magnetic gradient tensor are used for joint inversion, and the inversion result is compared with normalized source strength and total magnitude. The simulation and experimental results show that, even without prior information, the method we proposed can effectively estimate the magnetic parameters of the magnetic target and accurately obtain the inversion results of the magne-tic target. At the same time, under the condition of remanent magnetization, compared with the traditional normalized source strength and total magnitude, this method can effectively improve the accuracy of three-dimensional inversion of magnetic bodies.
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