Time domain electromagnetic simulations employing unstructured tetrahedral meshes offer smooth boundary approximations and graded meshes for multiscale problems. However, multiscale effects may arise not only as a consequence of fine geometry, but also from CAD and mesh generation artifacts and it is critical that the simulation algorithms can be employed in their presence without unduly compromising their computational performance. The ability of the Unstructured Transmission Line Modeling (UTLM) algorithm to coalesce small computational cells into larger entities is a key enabler for the approach. This paper demonstrates the use of complexity reduction techniques to both notably reduce the preprocessing time required for this and as a con...
During this PhD project, we worked on time-domain numerical techniques in electromagnetism for analy...
Modern electromagnetic problems are becoming increasingly complex and their simulation must t...
We consider problems related to initial meshing and adaptive mesh refinement for the electromagnetic...
Time domain electromagnetic simulations employing unstructured tetrahedral meshes offer smooth bound...
Numerical simulation techniques play an important role due to their flexibility in dealing with a br...
Transmission Line Modeling, TLM, is a flexible and established numerical simulation technique that h...
Small scale fabrication processes have led to the advent of very thin flexible devices such as RFID...
In this paper, the Unstructured Transmission Line Modelling (UTLM) method based on a tetrahedral mes...
Transmission Line Modelling (TLM) method is an well-established technique for simulating a wide vari...
International audienceMany practical problems are of multiscale nature. This issue appears when rela...
Modelling detailed electromagnetic interactions in Electromagnetic Compatibility predictions is an e...
Despite vast advancements in computational hardware capabilities, full-wave electromagnetic simulati...
International audienceThe insatiable demand to optimize and engineer new functionalities in electro...
Many system-level electromagnetic design problems are multiscale and very challenging to solve. They...
Innovations in material science, (nano) fabrication techniques, and availability of fast computers a...
During this PhD project, we worked on time-domain numerical techniques in electromagnetism for analy...
Modern electromagnetic problems are becoming increasingly complex and their simulation must t...
We consider problems related to initial meshing and adaptive mesh refinement for the electromagnetic...
Time domain electromagnetic simulations employing unstructured tetrahedral meshes offer smooth bound...
Numerical simulation techniques play an important role due to their flexibility in dealing with a br...
Transmission Line Modeling, TLM, is a flexible and established numerical simulation technique that h...
Small scale fabrication processes have led to the advent of very thin flexible devices such as RFID...
In this paper, the Unstructured Transmission Line Modelling (UTLM) method based on a tetrahedral mes...
Transmission Line Modelling (TLM) method is an well-established technique for simulating a wide vari...
International audienceMany practical problems are of multiscale nature. This issue appears when rela...
Modelling detailed electromagnetic interactions in Electromagnetic Compatibility predictions is an e...
Despite vast advancements in computational hardware capabilities, full-wave electromagnetic simulati...
International audienceThe insatiable demand to optimize and engineer new functionalities in electro...
Many system-level electromagnetic design problems are multiscale and very challenging to solve. They...
Innovations in material science, (nano) fabrication techniques, and availability of fast computers a...
During this PhD project, we worked on time-domain numerical techniques in electromagnetism for analy...
Modern electromagnetic problems are becoming increasingly complex and their simulation must t...
We consider problems related to initial meshing and adaptive mesh refinement for the electromagnetic...