The effectiveness of astronomical speckle transfer function reweighting algorithms

An algorithm is developed for the computation of the transfer function matrix of a two-dimensional system, which is given in its state-space form, without inverting a polynomial matrix. A new transformation has been considered so that the well known Fadeeva's algorithm for regular systems can be use

## Abstract A magnetization transfer (MT)‐prepared echo‐planar imaging (EPI) pulse sequence was developed to study motor cortex activation, using a finger tapping paradigm. MT weighting resulted in a reduction of both the activated area and, in the majority of activated pixels, the functional MRI s

problem of computing the transfer function matrices for regular and singular discrete two-dimensional general state-space models (2D GM) is discussed, and some programmable algorithms are developed that generalize the well-known Leverrier algorithm to 2D systems of general form. The results also sho

The method described was developed to provide a numerical solution of the time response of a linear biological system from its transfer function. One advantage of the method is that the time response is expressed in the form of a transcendental equation. unlike previous solutions of this type which