微波元件的形状和拓扑优化

2009 International Conference on Advances in Computational Tools for Engineering Applications Pub Date : 2009-07-15 DOI:10.1109/ACTEA.2009.5227956

H. Khalil, S. Bila, M. Aubourg, D. Baillargeat, S. Verdeyme, F. Jouve

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引用次数: 2

摘要

空间和地面通信的先进组件的设计需要复杂的设计方法和制造技术来改善当前组件的性能。特别是，确定元件的最佳形状和尺寸是微波工程师最重要的问题。为了改进经典的微波滤波器，可以将形状和拓扑优化方法与数值模拟方法相结合。本文将拓扑梯度法和水平集法与有限元法相结合，用于优化微波滤波器中介电谐振腔的形状。

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Shape and topology optimization of microwave components

The design of advanced components for space and terrestrial telecommunications requires both sophisticated design methodologies and manufacturing technologies for improving current component performances. In particular, determining the optimal shape and size of a component is a problem of primary importance for microwave engineers. In order to improve the classical microwave filters, shape and topology optimization methods can be utilized together with numerical modeling methods. Topology gradient and level set methods are coupled here with the finite element method for optimizing the shape of dielectric resonators included in microwave filters.

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2009 International Conference on Advances in Computational Tools for Engineering Applications

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