An Efficient Curvature-Based Synthesis Methodology for Rotationally Symmetric Shaped Reflector Antennas

IF 3.6 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Open Journal of Antennas and Propagation Pub Date : 2024-10-25 DOI:10.1109/OJAP.2024.3486621

Manushanker Balasubramanian;Douglas H. Werner

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Abstract

A previously proposed B-spline curvature-based synthesis technique is extended and applied to the design of rotationally symmetric reflector antennas with shaped beam patterns. The approach is based on representing a reflector as a single curve that can be modified to alter the reflector’s shape. The curvature is evaluated and represented using B-spline polynomials. First, the control points of the spline curve are defined as variables and then a new curvature profile is generated. Following this step, the corresponding curve is synthesized using the proposed iterative algorithm. This process of optimizing the curvature using B-spline polynomials offers the ability to better control the shape of a reflector with very few design variables. Furthermore, it significantly accelerates the convergence of the optimizer, making the approach very attractive compared to existing methods. The accuracy and validity of the proposed method are verified by multiple single and dual reflector antenna examples.

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一种基于曲率的旋转对称形反射天线综合方法

将先前提出的基于b样条曲率的合成技术扩展并应用于具有异形波束的旋转对称反射天线的设计。该方法基于将反射器表示为一条可以修改以改变反射器形状的曲线。曲率是用b样条多项式来计算和表示的。首先将样条曲线的控制点定义为变量，然后生成新的曲率轮廓。在此步骤之后，使用提出的迭代算法合成相应的曲线。这种使用b样条多项式优化曲率的过程提供了用很少的设计变量更好地控制反射器形状的能力。此外，它显著加快了优化器的收敛速度，使该方法与现有方法相比非常有吸引力。通过多个单、双反射面天线算例验证了该方法的准确性和有效性。

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