Model-order reduction provides an efficient way of computing frequency sweeps for finite-element models, because the dimension of the reduced-order system depends on the complexity of the frequency response rather than the size of the original model. For electrically large domains, however, the applicability of such methods is unclear because the system response may be very complicated. This paper provides a numerical study of the effects of bandwidth, electrical size, and scan angle on the size and convergence of the ROM, by considering linear antenna arrays. A mathematical model is proposed and validated against numerical experiments
As operating frequencies increase, full wave numerical techniques such as the finite element method ...
Large scale finite element models are routinely used in design and optimization for com-plex enginee...
In this work, we focus on obtaining an accurate and reliable physical-based description of the Elect...
Different strategies suitable to compare the performance of different model order reduction techniqu...
In vielen Anwendungsbereichen, wie der Kommunikations- und Radartechnik, sind phasengesteuerte Grupp...
AbstractThis paper examines classical Model Order Reduction (MOR) strategies in view of the particul...
A data-driven model order reduction technique for fast frequency sweep in computationally intensive ...
International audienceIn this paper, a reduced basis approximation-based model order reduction for f...
© 2014 European Association on Antennas and Propagation. A review of full-wave and reduced-order mod...
A reduced-order model is applied to finite element analysis of microwave circuits. The matrix-valued...
Finite elements methods have long made use of model order reduction (MOR), particularly in the conte...
In this work, a model order reduction technique for fast frequency sweep in microwave filters and di...
183 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.In this dissertation, robust,...
A reliable reduced-order model (ROM) for fast frequency sweep in time-harmonic Maxwell’s equations b...
This paper presents an efficient model-order reduction approach for computing fast frequency sweeps ...
As operating frequencies increase, full wave numerical techniques such as the finite element method ...
Large scale finite element models are routinely used in design and optimization for com-plex enginee...
In this work, we focus on obtaining an accurate and reliable physical-based description of the Elect...
Different strategies suitable to compare the performance of different model order reduction techniqu...
In vielen Anwendungsbereichen, wie der Kommunikations- und Radartechnik, sind phasengesteuerte Grupp...
AbstractThis paper examines classical Model Order Reduction (MOR) strategies in view of the particul...
A data-driven model order reduction technique for fast frequency sweep in computationally intensive ...
International audienceIn this paper, a reduced basis approximation-based model order reduction for f...
© 2014 European Association on Antennas and Propagation. A review of full-wave and reduced-order mod...
A reduced-order model is applied to finite element analysis of microwave circuits. The matrix-valued...
Finite elements methods have long made use of model order reduction (MOR), particularly in the conte...
In this work, a model order reduction technique for fast frequency sweep in microwave filters and di...
183 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.In this dissertation, robust,...
A reliable reduced-order model (ROM) for fast frequency sweep in time-harmonic Maxwell’s equations b...
This paper presents an efficient model-order reduction approach for computing fast frequency sweeps ...
As operating frequencies increase, full wave numerical techniques such as the finite element method ...
Large scale finite element models are routinely used in design and optimization for com-plex enginee...
In this work, we focus on obtaining an accurate and reliable physical-based description of the Elect...