Calculation method of the radar cross section of the complex shape object located on the surface with an arbitrary reflection coefficient

34 Pub Date : 2021-06-30 DOI:10.26565/2311-0872-2021-34-06

V. Khrychov, M. Legenkiy

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Abstract

Relevance. Currently, an important problem is the electromagnetic wave scattering modeling on the complex shape objects located on some underlying surface (this may be military equipment on bitumen/ grass, surface objects directly on the water). Such tasks are important when designing new inconspicuous equipment. The purpose of the work. Consider the existing and suggest improvements in the method solving of the problem of electromagnetic wave diffraction on the complex shape object, which is located on some underlying surface. In this case, the change in the electromagnetic parameters of the underlying surface should not lead to the need to re-calculate the field scattered from the object. Materials and methods. The diffraction problem is solved for the complex shape object, which is located on the underlying surface. The surface can be characterized by dielectric (and magnetic) permeability, complex reflection coefficient or surface impedance. In order to determine the resulting field for an object located on an arbitrary surface, the scattering problem is solved for cases when the object is located above an ideally conducting surface and above an ideal magnetic. Results. A modeling technique for the scattering of the electromagnetic waves by the complex shape objects located above an underlying surface is proposed. Numerical experiments have been caried out in order to demonstrate the effectiveness of this technique. Conclusion. It is shown that the method proposed in the article allows to effectively calculate the contribution of different underlying surfaces in the resulting scattered field of the complex shape objects that are located on it. You do not need to simulate directly for an object over a specific surface each time. It is enough to carry out only three simulations: for an object in free space, and also when ideal conductor and ideal magnetic are used as the underlying surface. Formulas that allow to calculate the field scattered by this object for an arbitrary underlying surface are obtained.

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具有任意反射系数的复杂形状物体表面雷达截面的计算方法

的相关性。目前，一个重要的问题是位于某些下垫面(这可能是沥青/草地上的军事装备，直接在水面上的表面物体)上的复杂形状物体的电磁波散射建模。在设计新的不显眼的设备时，这些任务很重要。工作的目的。针对下垫面上复杂形状物体的电磁波衍射问题的现有求解方法，提出了改进的建议。在这种情况下，下垫面电磁参数的变化不应导致需要重新计算从物体散射的场。材料和方法。解决了位于下垫面的复杂形状物体的衍射问题。表面可以用介电(和磁)导率、复反射系数或表面阻抗来表征。为了确定物体在任意表面上的场，对物体在理想导电表面和理想磁性表面上的散射问题进行了求解。提出了一种下垫面上复杂形状物体对电磁波散射的建模方法。为了验证该方法的有效性，进行了数值实验。结果表明，本文提出的方法可以有效地计算出位于其上的复杂形状物体的不同下垫面对散射场的贡献。您不需要每次都对特定表面上的对象直接进行模拟。只需进行三种模拟就足够了:一种是自由空间中的物体，另一种是使用理想导体和理想磁体作为下表面的物体。得到了计算任意下垫面散射场的公式。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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