In this paper, an updated equivalence principle algorithm (EPA) is presented. Compared with previous work by the authors, the high-order point sampling scheme is used to reduce the high-frequency noise in field projection. An updated tap basis scheme is introduced to simplify the formulation. With these schemes, the equivalence principle algorithm can be used to solve multiscale problems by substituting the oversampled region with a proper equivalence surface. Moreover, EPA can also be accelerated using attached unknown accelerations and multilevel fast multipole algorithm so that large multiscale problems can be solved efficiently. © 2008 IEEE.link_to_subscribed_fulltex
This paper reviews various methods to solve multiscale problems ranging from low-frequency methods t...
It is well known that simulation equivalence is an appropriate abstraction to be used in model check...
In this paper we wish to focus on some recent advances in the Multilevel Fast Multipole Algorithm (M...
109 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.Conventional basis used to di...
109 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.Conventional basis used to di...
Equivalence principle algorithm (EPA) using the high-order field point sampling scheme [1] has low f...
The present equivalence principle algorithm (EPA) is augmented by introducing charge densities as ex...
A equivalence principle algorithm using the method moments is introduced. Complex structures can be ...
Abstract—In this paper, we will discuss two methods to tackle the low-frequency, multi-scale electro...
A novel implementation of the equivalence principle algorithm (EPA) employing potential integral equ...
An improved generalized single-source tangential equivalence principle algorithm (GSST-EPA) is propo...
We propose a mixed 'skeleton' and 'equivalence' nested approximation method to compress the impedanc...
Electromagnetic modeling of multiscale wave interactions is a challenging task. This is because wave...
A new approach is proposed to enhance the efficiency and reduce the memory requirements of the multi...
It is well known that simulation equivalence is an appropriate abstraction to be used in model check...
This paper reviews various methods to solve multiscale problems ranging from low-frequency methods t...
It is well known that simulation equivalence is an appropriate abstraction to be used in model check...
In this paper we wish to focus on some recent advances in the Multilevel Fast Multipole Algorithm (M...
109 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.Conventional basis used to di...
109 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.Conventional basis used to di...
Equivalence principle algorithm (EPA) using the high-order field point sampling scheme [1] has low f...
The present equivalence principle algorithm (EPA) is augmented by introducing charge densities as ex...
A equivalence principle algorithm using the method moments is introduced. Complex structures can be ...
Abstract—In this paper, we will discuss two methods to tackle the low-frequency, multi-scale electro...
A novel implementation of the equivalence principle algorithm (EPA) employing potential integral equ...
An improved generalized single-source tangential equivalence principle algorithm (GSST-EPA) is propo...
We propose a mixed 'skeleton' and 'equivalence' nested approximation method to compress the impedanc...
Electromagnetic modeling of multiscale wave interactions is a challenging task. This is because wave...
A new approach is proposed to enhance the efficiency and reduce the memory requirements of the multi...
It is well known that simulation equivalence is an appropriate abstraction to be used in model check...
This paper reviews various methods to solve multiscale problems ranging from low-frequency methods t...
It is well known that simulation equivalence is an appropriate abstraction to be used in model check...
In this paper we wish to focus on some recent advances in the Multilevel Fast Multipole Algorithm (M...