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我们报道了关于全面开发独特的基于磁梯度张量的“标量三角测量和测距(STAR)”探测、定位和识别(DLC)磁性目标的方法明显的进展情况。STAR方法将磁张量变换成旋转不变的标量参数,该参数实际上是不受传感平台运动效应的影响。改进的三维模拟表明,STAR概念可用于测量磁性目标的矢量位置和偶极子特征。新的结果表明,改进的STAR系统将提供更强的鉴别磁杂波和类似磁性水雷与未爆武器(UXO)等真实目标的能力。
We report on the clear progress made in the comprehensive development of a unique method based on magnetic gradient-magnitude-based “scalar triangulation and localization” magnetic detection, localization and recognition (DLC) targets. The STAR method transforms the magnetic tensor into a rotational invariant scalar parameter that is virtually unaffected by the motion effects of the sensing platform. The improved 3D simulations show that the STAR concept can be used to measure the vectorial position and dipole characteristics of magnetic targets. The new results show that the improved STAR system will provide even greater ability to identify magnetic clutter and true targets like magnetic mines and unexploded ordnance (UXO).