Antenna Synthesis by Levin's Method Using a Novel Optimization Algorithm for Knot Placement
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Date
2023
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Applied Computational Electromagnetics Soc
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Abstract
- Antenna synthesis refers to determining the antenna current distribution by evaluating the inverse Fourier integral of its radiation pattern. Since this inte-gral is highly oscillatory, Levin's method can be used for the solution, providing high accuracy. In Levin's method, the integration domain is divided into equally spaced sub-intervals, and the integrals are solved by transfer-ring them into differential equations. This article uses a new optimization algorithm to determine the location of these interval points (knots) to improve the method's accuracy. Two different antenna design examples are pre-sented to validate the accuracy and efficiency of the pro-posed method for antenna synthesis applications.
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Antenna Synthesis, Fourier Integral, Highly Oscillatory Integrals Knot Placement, Levin'S Method
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Citation
Şener, G. (2023). "Antenna Synthesis by Levin's Method using a Novel Optimization Algorithm for Knot Placement", Applied Computational Electromagnetics Society Journal, Vol.38, No.2, pp.74-79.
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Q4
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Q3
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Volume
38
Issue
2
Start Page
74
End Page
79
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