This paper investigates the use of surrogate-based optimization to optimize the behavioral response of broadband microwave filters. The proposed method makes use of an efficient infill criterion (called expected improvement) that sequentially samples the response of the device at well-chosen regions in the design space. Based on these data samples, successive global surrogate models are built that become increasingly accurate near the optimum solution. A microwave filter example confirms that this approach significantly accelerates device optimization when compared to standard gradient-based methods
In resonator-coupled bandpass filter 3D design, it is a routine that the filter optimization methods...
This article proposes a multifeature-assisted neuro-transfer function (neuro-TF) surrogate-based ele...
The computational cost of evaluating the objective function in electromagnetic optimal design proble...
Abstract — This paper investigates the use of surrogate-based optimization to optimize the behav-ior...
Local optimization is a routine approach for full-wave optimization of microwave filters. For filter...
Local optimization is a routine approach for full-wave optimization of microwave filters. For filter...
Most existing microwave filter yield optimization methods target a small number of sensitive design ...
Microwave filters are indispensable passive devices for modern wireless communication systems. Nowad...
AbstractIn this paper, a novel technique for cost-efficient design optimization of microwave structu...
Feature-based electromagnetic (EM) optimization techniques can help avoid local minima in microwave ...
In this paper, a variable-fidelity optimization methodology for simulation-driven design optimizatio...
As a crucial frequency selection device in modern communication systems, the microwave filter plays ...
A novel low-cost kriging-based multivariable parametric macromodeling technique for microwave filter...
Filter optimization problems involve time-consuming simulations and many variables in the design. Th...
Com o apoio RAADRI.The Surrogate Based Optimization is largely used in engineering design to find op...
In resonator-coupled bandpass filter 3D design, it is a routine that the filter optimization methods...
This article proposes a multifeature-assisted neuro-transfer function (neuro-TF) surrogate-based ele...
The computational cost of evaluating the objective function in electromagnetic optimal design proble...
Abstract — This paper investigates the use of surrogate-based optimization to optimize the behav-ior...
Local optimization is a routine approach for full-wave optimization of microwave filters. For filter...
Local optimization is a routine approach for full-wave optimization of microwave filters. For filter...
Most existing microwave filter yield optimization methods target a small number of sensitive design ...
Microwave filters are indispensable passive devices for modern wireless communication systems. Nowad...
AbstractIn this paper, a novel technique for cost-efficient design optimization of microwave structu...
Feature-based electromagnetic (EM) optimization techniques can help avoid local minima in microwave ...
In this paper, a variable-fidelity optimization methodology for simulation-driven design optimizatio...
As a crucial frequency selection device in modern communication systems, the microwave filter plays ...
A novel low-cost kriging-based multivariable parametric macromodeling technique for microwave filter...
Filter optimization problems involve time-consuming simulations and many variables in the design. Th...
Com o apoio RAADRI.The Surrogate Based Optimization is largely used in engineering design to find op...
In resonator-coupled bandpass filter 3D design, it is a routine that the filter optimization methods...
This article proposes a multifeature-assisted neuro-transfer function (neuro-TF) surrogate-based ele...
The computational cost of evaluating the objective function in electromagnetic optimal design proble...