论文信息 - Efficient Gaussian process modelling and optimization of slot antennas using a multi-fidelity approach for training data reduction

Efficient Gaussian process modelling and optimization of slot antennas using a multi-fidelity approach for training data reduction

A methodology for reducing the computational cost of setting up Gaussian process (GP) models of coplanar waveguide (CPW)-fed slot antennas is presented. Our approach exploits finite-element frequency-domain simulations of different mesh densities with the coarse-mesh simulations used to find a reduced number of fine-mesh-simulated training points, eventually utilized to construct the GP surrogate model of the antenna. The surrogate is successfully applied to optimize the geometry parameters of the antenna within the adaptively-adjusted design specifications framework, even when the training data was reduced by as much as 70%. In the latter case, the computational cost of setting up the surrogate was only 40% of that of setting up a surrogate model using the full training data, while the total optimization time could be reduced by a third.

Slawomir Koziel | Stanislav Ogurtsov | J. Pieter Jacobs

[1] Tamara G. Kolda,et al. Optimization by Direct Search: New Perspectives on Some Classical and Modern Methods , 2003, SIAM Rev..

[2] Carl E. Rasmussen,et al. Gaussian processes for machine learning , 2005, Adaptive computation and machine learning.

[3] J. P. Jacobs,et al. Gaussian-Process-Regression-Based Design of Ultrawide-Band and Dual-Band CPW-FED Slot Antennas , 2010 .

[4] Slawomir Koziel. Efficient optimization of microwave structures through design specifications adaptation , 2010, 2010 IEEE Antennas and Propagation Society International Symposium.

[5] J. P. Jacobs,et al. GAUSSIAN PROCESS MODELING OF CPW-FED SLOT ANTENNAS , 2009 .