Reduction of Transfer Functions from the Stability-Equation Method and Complex Curve Fitting

A method of model reduction for reducing a high-order transfer function to its low-order models is introduced based upon the stability-equation method. 7'he transfer functions of reduced orders are obtained directly from the pole-zero patterns of the stability-equations of the original transfer func

Complex transfer function models of chemical plant can be reduced to simple models using the method of moments. Two such simple transfer function models are and G(s) = exp [-,sl (1+7qS)(1+T3S) G(s) = exp 1~~~1 (1+7\*s)"' The three parameters of the simple model are obtained by matching the first thr

A computer program has been developed that calculates, using the weighted least-squares technique, the overall formation constants, Bi, of mononuclear complexes, the standard deviations of Bi, SDV,, and an estimate of goodness of fit, Goodness-of-Fit Parameter (GOFP), given a set of average ligand n

The parameters of simple transfer function models of chemical processes can be obtained from the state variable models usually derived by matching the moments of the impulse response of the two models. It has been shown previously how the moments of the state variable model may be derived directly f

In (I), we describe a numerical method for determining the relaxation distribution function from decay curves. The distribution function is expanded in a series of appropriate polynomials and the best values of the coefficients are determined by the method of least squares. In order to examine its a