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Mathematical Modeling of Serial Data. Modeling Serial Data. Differs from simple equation fitting in that the parameters of the equation must have meaning Can be used to smooth Can explain phenomena Can be used to predict. Steps in Mathematical Modeling. Identification of the mechanism
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Modeling Serial Data • Differs from simple equation fitting in that the parameters of the equation must have meaning • Can be used to smooth • Can explain phenomena • Can be used to predict Mathematical Modeling of Serial Data
Steps in Mathematical Modeling • Identification of the mechanism • Translation of that phenomenon into a mathematical equation • Testing the fit of the model to actual data • Modification of the model according to the results of the experimental evaluation Mathematical Modeling of Serial Data
Criteria of Fit of the Model • Least Sum of Squares • Shape of the curve Mathematical Modeling of Serial Data
Examination of Residuals Residual = Actual Y - Predicted Y Ideally there is no pattern to the residuals. In this case there would be a horizontal normal distribution of residuals about a mean of zero. However there is a clear pattern indicating the lack of fit of the model. Mathematical Modeling of Serial Data
Ideal Characteristics of a Model • Simple • Fits the experimental data well • Has biologically meaningful parameters Mathematical Modeling of Serial Data
National Centre for Health Statistics (N.C.H.S.)1970’srevamped asCenter for Disease ControlC.D.C. charts, 2001 Clinical Growth Charts • Most often used clinical norms for height and weight • Cross-sectional Mathematical Modeling of Serial Data
Preece-Baines model I • where h is height at time t, • h1 is final height, • s0 and s1 are rate constants, • q is a time constant and • hq is height at t = q. Mathematical Modeling of Serial Data
Smooth curves are the result of fitting Preece-Baines Model 1 to raw data This was achieved using MS EXCEL rather than custom software
Caribbean Growth Data n =1697