Calderon preconditioning is very succesful in stabilising the EFIE and the use of BC functions makes the formalism valid on open surfaces. Through applying a broadband fast multipole method, the complexity can be reduced from O (N2) to O(N log N), allowing the simulation of very large structures. In the high frequency case a localised version of the preconditioner must be used to avoid excessive scattering of the eigenvalues of the combined operator
A higher-order multilevel fast multipole algorithm (MLFMA) for solving integral equations of electro...
We investigate a range of techniques for the acceleration of Calderón (operator) preconditioning in ...
A new high-order Calderon multiplicative preconditioner (HO-CMP) for the electric field integral equ...
Calderon preconditioning is very succesful in stabilising the EFIE and the use of BC functions makes...
In this paper we wish to focus on some recent advances in the Multilevel Fast Multipole Algorithm (M...
The Fast Multipole Method was introduced by Greengard and Rokhlin in a seminal paper appeared in 198...
Calderon preconditioners have recently been demonstrated to be very successful in stabilizing the el...
electric-field integral equation, multilevel fast multipole algorithm, electromagnetic scattering. W...
In recent years, the computational electromagnetics community has witnessed a rapid increase in the ...
International audienceSince the advent of the fast multipole method, large-scale electromagnetic sca...
International audienceThe mixed MFIE and Calderon preconditioned EFIE both can be used to accurately...
This paper presents a study of the scaling with frequency (computational complexity) of precondition...
For the iterative solutions of the integral equation methods employing the multilevel fast multipole...
International audienceThe scattering of time-harmonic waves by perfect electrical conductors can be ...
Scattering of time-harmonic electromagnetic waves by perfect electrical conductors (PECs) can be mod...
A higher-order multilevel fast multipole algorithm (MLFMA) for solving integral equations of electro...
We investigate a range of techniques for the acceleration of Calderón (operator) preconditioning in ...
A new high-order Calderon multiplicative preconditioner (HO-CMP) for the electric field integral equ...
Calderon preconditioning is very succesful in stabilising the EFIE and the use of BC functions makes...
In this paper we wish to focus on some recent advances in the Multilevel Fast Multipole Algorithm (M...
The Fast Multipole Method was introduced by Greengard and Rokhlin in a seminal paper appeared in 198...
Calderon preconditioners have recently been demonstrated to be very successful in stabilizing the el...
electric-field integral equation, multilevel fast multipole algorithm, electromagnetic scattering. W...
In recent years, the computational electromagnetics community has witnessed a rapid increase in the ...
International audienceSince the advent of the fast multipole method, large-scale electromagnetic sca...
International audienceThe mixed MFIE and Calderon preconditioned EFIE both can be used to accurately...
This paper presents a study of the scaling with frequency (computational complexity) of precondition...
For the iterative solutions of the integral equation methods employing the multilevel fast multipole...
International audienceThe scattering of time-harmonic waves by perfect electrical conductors can be ...
Scattering of time-harmonic electromagnetic waves by perfect electrical conductors (PECs) can be mod...
A higher-order multilevel fast multipole algorithm (MLFMA) for solving integral equations of electro...
We investigate a range of techniques for the acceleration of Calderón (operator) preconditioning in ...
A new high-order Calderon multiplicative preconditioner (HO-CMP) for the electric field integral equ...