Entropy characterization of finite elements

In this work a tissue aspiration method for the in vivo determination of biological soft tissue material parameters is presented. An explicit axisymmetric finite element simulation of the aspiration experiment is used together with a Levenberg-Marquardt algorithm to estimate the material model param

domains are considered [11]. Also the application of adaptive techniques is complicated and only recently such pro- The principal idea of the present work consists in using the entropy balance equation in its discrete form as a rationale for con-cedures have been successfully used in FD computation

An airbeam is a high-strength fabric sleeve with a highly flexible internal bladder that can be used as a load-bearing beam or arch when inflated. Due to their fabric construction, airbeams are inherently thinwalled structures that are prone to local buckling. In this study, airbeams were tested in

We show the analogue for the entropy of automorphisms of finite von Neumann algebras of the classical formula H(T )=H( i=0 T &i P | i=1 T &i P), where T is a measure preserving transformation of a probability space, and P is a generator.