人工神经网络在超宽带地下无线电定位中的信号处理

2019 IEEE International Scientific-Practical Conference Problems of Infocommunications, Science and Technology (PIC S&T) Pub Date : 2019-10-01 DOI:10.1109/PICST47496.2019.9061427

O. Dumin, V. Plakhtii, O. Prishchenko, D. Shyrokorad

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引用次数: 1

摘要

研究了地下目标识别中的信号处理问题。信号源是地空界面和地下物体反射的超短脉冲电磁波，由地下雷达天线系统接收。辐照的超宽带场源为具有高斯时间依赖性的平面电磁波，正常入射到地空界面。采用时域有限差分法对电磁问题进行数值模拟，求出地面以上某一固定高度接收点的电场强度，并对接收到的信号进行人工神经网络处理，对目标进行识别和位置分类。电子小的金属圆柱体被用作分类和识别的对象示例。研究了人工神经网络的结构及其训练特性对分类精度的影响。

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Signal Processing in UWB Subsurface Radiolocation by Artificial Neural Networks

The signal processing problem for identification of underground objects is considered. The source of signals is the ultra short impulse electromagnetic waves reflected from air-ground interface and underground objects and received by subsurface radar antenna system. The source of the irradiated ultrawideband field is the plane electromagnetic wave with Gaussian time dependence that is incident normally to the air-ground interface. The numerical simulation of the electromagnetic problem to find the electrical field strength in receiving points above the ground at some fixed height is carried out by Finite Difference Time Domain method The received signals are processed by artificial neural networks for the object identification and classification of its position. The electrically small metal cylinder is used as an example of an object for the classification and recognition. The influence of the structure of an artificial neural network and its training peculiarities on the precision of the classification is investigated.

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2019 IEEE International Scientific-Practical Conference Problems of Infocommunications, Science and Technology (PIC S&T)

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