Linearization–an efficient alternate for the estimation of parameters

The paper describes an inverse numerical experimental method to determine material parameters for biological tissues. Measured "eld quantities are compared to calculated "eld quantities. The "eld equations are solved with the "nite element method, using an assumed constitutive model and estimations

This letter proposes the substructure-front S-F technique in conjunction with the geometry-independent measured equation of ( ) in¨ariance GIMEI for fast parameter extraction of a multilayer and ( ) multiconductor interconnect based on the finite-element method FEM for VLSI circuit analysis. Results

The 'compound Poisson' (CP) software reliability model was proposed previously by the first named author for time-between-failure data in terms of CPU seconds, using the 'maximum likelihood estimation' (MLE) method to estimate unknown parameters; hence, CPMLE. However, another parameter estimation t

A fast and efficient adapti¨e sampling algorithm is presented. This algorithm is applied to the aggressi¨e space mapping technique to minimize the number and to automate the selection of frequency sample points of the fine model, thus impro¨ing the efficiency of space mapping. The new technique is a