Add to ORKGElectromagnetic sensing and system-level design problems are often multiscale and very challenging to solve. Most existing commercial solvers are based on single methodologies (such as finite element method or finite-difference time-domain method), and are unable to solve large multiscale problems. We will present our recent work in solving realistic multiscale simulation and imaging problems. Applications will be illustrated for subsurface sensing, microwaves, and nanophotonics
Despite vast advancements in computational hardware capabilities, full-wave electromagnetic simulati...
This book gives a compact overview about actual research in the field of Electromagnetics and Networ...
The book will cover the past, present and future developments of field theory and computational elec...
Many system-level electromagnetic design problems are multiscale and very challenging to solve. They...
Emerging Topics in Computational Electromagnetics in Computational Electromagnetics presents advance...
With advances in system integration and packaging, the capabilities of hand-held devices and embedde...
Applications in science and technology rely increasingly on electromagnetic (EM) field computations ...
This new resource covers the latest developments in computational electromagnetic methods, with emph...
The finite difference time domain method has long been one of the most widely used numerical methods...
In this thesis, novel numerical algorithms rooted in computational electromagnetic methods are devel...
This work explores the implications of random and non-linear nanostructures on electromagnetic wave ...
This presentation summarizes some recent advances of computational electromagnetics for complex stru...
An overview of computational electromagnetics and its recent trends are given. Fast integral equatio...
The principal computational electromagnetics techniques for solving antenna problems are reviewed. A...
This paper reviews various methods to solve multiscale problems ranging from low-frequency methods t...
Despite vast advancements in computational hardware capabilities, full-wave electromagnetic simulati...
This book gives a compact overview about actual research in the field of Electromagnetics and Networ...
The book will cover the past, present and future developments of field theory and computational elec...
Many system-level electromagnetic design problems are multiscale and very challenging to solve. They...
Emerging Topics in Computational Electromagnetics in Computational Electromagnetics presents advance...
With advances in system integration and packaging, the capabilities of hand-held devices and embedde...
Applications in science and technology rely increasingly on electromagnetic (EM) field computations ...
This new resource covers the latest developments in computational electromagnetic methods, with emph...
The finite difference time domain method has long been one of the most widely used numerical methods...
In this thesis, novel numerical algorithms rooted in computational electromagnetic methods are devel...
This work explores the implications of random and non-linear nanostructures on electromagnetic wave ...
This presentation summarizes some recent advances of computational electromagnetics for complex stru...
An overview of computational electromagnetics and its recent trends are given. Fast integral equatio...
The principal computational electromagnetics techniques for solving antenna problems are reviewed. A...
This paper reviews various methods to solve multiscale problems ranging from low-frequency methods t...
Despite vast advancements in computational hardware capabilities, full-wave electromagnetic simulati...
This book gives a compact overview about actual research in the field of Electromagnetics and Networ...
The book will cover the past, present and future developments of field theory and computational elec...