Computationally efficient simulation-driven antenna design using coarse-discretization electromagnetic models

机译：使用粗离散化电磁模型计算高效的仿真驱动天线设计

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Electromagnetic (EM) simulation and simulation-driven optimization are ubiquitous in contemporary antenna design. Unfortunately, accurate simulation is CPU intensive so that employing EM solvers directly in the optimization loop may be impractical. Here, several computationally efficient simulation-driven design techniques are considered for antenna design. All of these methods exploit coarse-discretization EM antenna models, which, after suitable correction, serve as reliable prediction tools guiding the optimization process. As the coarse-discretization model is computationally cheap, time costs of the design can be greatly reduced. The approaches presented here include multi-fidelity optimization, adaptive design specifications, and space mapping with kriging-based coarse models. Application examples are given.

机译：电磁（EM）仿真和仿真驱动优化在现代天线设计中普遍存在。不幸的是，精确的模拟是CPU强化，以便直接在优化环中使用EM溶剂可能是不切实际的。这里，考虑了几种计算上有效的仿真驱动的设计技术，用于天线设计。所有这些方法都利用了粗离散化EM天线型号，在合适的校正之后，它用作指导优化过程的可靠预测工具。随着粗型离散化模型的计算方式便宜，可以大大减少设计的时间成本。这里提出的方法包括多保真优化，自适应设计规范和与基于Kriging的粗略模型的空间映射。给出了应用例。

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《Institute of Electrical and Electronics Engineers International Symposium on Antennas and Propagation》|2011年||共4页
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Koziel Slawomir; Ogurtsov Stanislav;
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中图分类 TB97-53;
关键词
Simulation-driven design; antenna design; electromagnetic (EM) simulation; surrogate models;

机译：仿真驱动设计;天线设计;电磁（EM）模拟;代理模型;

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专利

1. Simulation-Driven Design of Antennas Using Coarse-Discretization Electromagnetic Models [J] . Slawomir Koziel, Stanislav Ogurtsova, Leifur Leifssona Procedia Computer Science . 2011,第1期

机译：基于粗离散电磁模型的天线仿真驱动设计
2. COMPUTATIONALLY EFFICIENT SIMULATION-DRIVEN DESIGN OF A PRINTED 2.45 GHz YAGI ANTENNA [J] . Slawomir Koziel, Stanislav Ogurtsov Microwave and optical technology letters . 2010,第8期

机译：精确打印的2.45 GHz八木天线的仿真驱动设计
3. Efficient Multi-Objective Simulation-Driven Antenna Design Using Co-Kriging [J] . Koziel S., Bekasiewicz A., Couckuyt I., Antennas and Propagation, IEEE Transactions on . 2014,第11期

机译：使用协同克里格的高效多目标仿真驱动天线设计
4. Computationally efficient simulation-driven antenna design using coarse-discretization electromagnetic models [C] . Koziel Slawomir, Ogurtsov Stanislav 2011 IEEE International Symposium on Antennas and Propagation (APSURSI) . 2011

机译：使用粗离散电磁模型的计算有效仿真驱动天线设计
5. Mobile array designs with ANSERLIN antennas and efficient, wide-band PEEC models for interconnect and power distribution network analysis. [D] . Cracraft, Michael Andrew. 2007

机译：具有ANSERLIN天线和高效宽带PEEC模型的移动阵列设计，用于互连和配电网络分析。
6. Antenna design for microwave hepatic ablation using an axisymmetric electromagnetic model [O] . John M Bertram, Deshan Yang, Mark C Converse, 2006

机译：基于轴对称电磁模型的微波肝消融天线设计
7. Simulation-Driven Design of Antennas Using Coarse-Discretization Electromagnetic Models [O] . Koziel Slawomir, Ogurtsova Stanislav, Leifssona Leifur 2011

机译：基于粗离散电磁模型的天线仿真驱动设计
8. Efficient Computation of Transient Diffusive Electromagnetic Fields by a Reduced211 Modeling Technique [R] . Remis, R. F., van den Berg, P. M. 1997

机译：用简化的211建模技术有效计算瞬态扩散电磁场

Computationally efficient simulation-driven antenna design using coarse-discretization electromagnetic models

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