Fast insertion methods of a double-array structure

Hybrid "nite element methods (FEM) which combine the "nite element and boundary integral methods have been found very successful for the analysis of conformal "nite and periodic arrays embedded on planar or curved platforms. A key advantage of these hybrid methods is their capability to model inhomo

We apply a new method of reducing the computational effort required for solution of the Electric Field Integral Equation used for modelling microstrip structures. The Fast Multipole Method is used to compute the radiation pattern and input impedance of single layer microstrip antennas.

Public-key cryptographic systems often involve raising elements of some group (e.g., GF 2 n , Z/NZ, or elliptic curves) to large powers. An important question is how fast this exponentiation can be done, which often determines whether a given system is practical. The best method for exponentiation d

## Abstract The paper presents a semi‐implicit algorithm for solving an unsteady fluid–structure interaction problem. The algorithm for solving numerically the fluid–structure interaction problems was obtained by combining the backward Euler scheme with a semi‐implicit treatment of the convection t

complex exponentials. Bastiaans [2] dubbed this family of functions the Gabor elementary functions (GEF). He also Computation of the finite discrete Gabor transform can be accomplished in a variety of ways. Three representative methgeneralized the notion of Gabor's expansion to include ods (matrix i

The theoretical behavior of a double layered array of two Newtonian liquids in ideal, isothermal, lubricated (frictionless) and non-lubricated, squeezing flows between parallel plates is described in terms of dimensionless force-time or thickness-time relationships. In lubricated flow at a constant