傅立叶变换模拟不透明物体衍射模型

Proceedings of the 9th International Conference on Telecommunications and Remote Sensing Pub Date : 2020-10-05 DOI:10.1145/3430116.3430121

I. Garvanov, C. Kabakchiev, Magdalena Garvanova, D. Borissova, G. Dimitrov

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引用次数: 3

摘要

当波在其路径中遇到障碍物时，就会发生衍射现象，因此它改变了在空间中的直线传播。波衍射在文献中描述为:菲涅耳衍射(当目标靠近接收器时)和弗劳恩霍夫衍射(当目标远离接收器时)。提出并研究了近、远观测区不透明物体的衍射模型。用傅里叶变换解释了衍射图样。研究了目标参数、目标到接收机的距离和信号波长之间的关系。所得的衍射模型可用于研究双基地雷达系统中信号的直接传播现象，以及对运动目标参数的检测和评估。

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Diffraction Models from Opaque Objects Simulated by Fourier Transform

The phenomenon of diffraction occurs when a wave encounters an obstacle in its path, as a result of which it changes its rectilinear propagation in space. Wave diffraction is described in the literature as: Fresnel diffraction (when the target is close to the receiver) and Fraunhofer diffraction (when the target is far from the receiver). A diffraction model from opaque objects in a near and far observation zone is presented and investigated. The diffraction pattern was interpreted using a Fourier transform. The relationships between the object parameters, the distance from the object to the receiver and the wavelength of the signal are studied. The obtained diffraction model can be used to study the phenomenon of direct signal propagation in bistatic radar systems as well as to detect and evaluate the parameters of moving objects.

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Proceedings of the 9th International Conference on Telecommunications and Remote Sensing

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