A distribution free approach for analysis of two-level structural equation model

## Abstract The ultimate goal of brain connectivity studies is to propose, test, modify, and compare certain directional brain pathways. Path analysis or structural equation modeling (SEM) is an ideal statistical method for such studies. In this work, we propose a two‐stage unified SEM plus GLM (Ge

A series of papers'-5 dealing with the wave equation formulation of the continuity equation has shown that this procedure is superior to the standard primitive equation method for simulating shallow water flow problems by the finite element method. However, the analysis of the numerical algorithms h

## Abstract A theoretical model based on the recently developed $ \overline {c^2}-\varepsilon \_{\rm c} $ two‐equation method is proposed to predict the axial mixing behavior in a structured packed column. By solving the proposed model, the process of tracer injection experiments for determining th

## Abstract The paper develops an efficient free‐vibration analysis procedure of two‐dimensional structures. This is achieved by employing a discretization technique based on a recently developed concept of finite dynamic elements, involving higher order dynamic correction terms in the associated s

## Abstract The recent advances in microarchitectural bone imaging disclose the possibility to assess both the apparent density and the trabecular microstructure of intact bones in a single measurement. Coupling these imaging possibilities with microstructural finite element (µFE) analysis offers a