The use of graphical transfer-function methods for residence-time distribution studies

The use of the transfer function F(p), based on the Laplace transformation, in the analysis of residence time distribution curves is considered. It is applied to the two point measuring technique and it is shown that for a low up (T mean residence time between measuring points,p Laplace operator) al

In this paper are presented four convenient methods for determination of the mean residence time and the axial dispersion coefficient of a flow system by analysis of data obtained by means of the imperfect tracer pulse method. The analysis is based upon numerical evaluation of the transfer function

Although functional magnetic resonance imaging (fMRI) methods yield rich temporal and spatial data for even a single subject, universally accepted data analysis techniques have not been developed that use all the potential information from fMRI of the brain. Specifically, temporal correlations and c

## Abstract The new procedure for identification of the effective distribution function for determination of the distributed activation energy models, which is based on use the maximum likelihood method (MLM), was established. The five different continuous probability functions (exponential, logist

The time-derivative method for deriving the sedimentation coefficient distribution, g(s\*), from sedimentation velocity data that was developed by Walter Stafford has many advantages and is now widely used. By fitting Gaussian functions to the g(s\*) distribution both sedimentation and diffusion coe