© Copyright 2006 IEEE – All Rights ReservedComputational domain truncations using pure and hybrid techniques in the framework of the finite-volume time-domain (FVTD) method are presented. Accurate truncation of the split-field perfectly matched layer (PML) using the first-order Silver-Mueller absorbing boundary condition (SM-ABC) provides a substitute for standard perfect electric conductor (PEC) based truncation without extra computational effort. Strategies to adapt SM-ABC for truncating PML and the broadband performance analysis of the FVTD-PML models are explored with supporting numerical results. Numerical reflection coefficients in the range of -75 dB were achieved at normal incidence for a broadband source excitation. A similar analy...
Die vorliegende Arbeit behandelt den Einsatz der Perfectly-Matched-Layer (PML) absorbierenden Randbe...
This paper presents an in-depth analysis of Berenger's perfectly matched layer (PML) boundary trunca...
As with all differential equation based numerical methods, open boundary problems in TLM require spe...
Abstract—The perfectly matched layer (PML) technique is extended for a cell-centered finite-volume t...
The perfectly matched layer (PML) technique is extended for a cell-centered finite-volume time-domai...
Abstract – Different implementations of planar per-fectly matched absorbers are studied under the un...
The application of the Finite Difference Time Domain (FDTD) method to open region radiation problems...
A radial perfectly matched absorber is investigated for accurate computational domain truncation in ...
Different implementations of planar perfectly matched absorbers are studied under the unified framew...
Abstract—This work demonstrates an efficient and simple PML absorbing boundary conditions (ABCs) imp...
Abstract: Perfectly matched layer (PML) absorbing boundary condition (ABC) is an important technique...
A perfectly matched layer (PML) is combined with an absorbing boundary condition (ABC) for mesh trun...
A perfectly matched layer (PML) is combined with an absorbing boundary condition (ABC) for mesh trun...
International audienceExisting implementation of perfectly matched layers (PML) constraining the com...
The electromagnetic modeling of distributed or other highly complex systems requires reliable and st...
Die vorliegende Arbeit behandelt den Einsatz der Perfectly-Matched-Layer (PML) absorbierenden Randbe...
This paper presents an in-depth analysis of Berenger's perfectly matched layer (PML) boundary trunca...
As with all differential equation based numerical methods, open boundary problems in TLM require spe...
Abstract—The perfectly matched layer (PML) technique is extended for a cell-centered finite-volume t...
The perfectly matched layer (PML) technique is extended for a cell-centered finite-volume time-domai...
Abstract – Different implementations of planar per-fectly matched absorbers are studied under the un...
The application of the Finite Difference Time Domain (FDTD) method to open region radiation problems...
A radial perfectly matched absorber is investigated for accurate computational domain truncation in ...
Different implementations of planar perfectly matched absorbers are studied under the unified framew...
Abstract—This work demonstrates an efficient and simple PML absorbing boundary conditions (ABCs) imp...
Abstract: Perfectly matched layer (PML) absorbing boundary condition (ABC) is an important technique...
A perfectly matched layer (PML) is combined with an absorbing boundary condition (ABC) for mesh trun...
A perfectly matched layer (PML) is combined with an absorbing boundary condition (ABC) for mesh trun...
International audienceExisting implementation of perfectly matched layers (PML) constraining the com...
The electromagnetic modeling of distributed or other highly complex systems requires reliable and st...
Die vorliegende Arbeit behandelt den Einsatz der Perfectly-Matched-Layer (PML) absorbierenden Randbe...
This paper presents an in-depth analysis of Berenger's perfectly matched layer (PML) boundary trunca...
As with all differential equation based numerical methods, open boundary problems in TLM require spe...