Horwitz's rule, transforming both sides and the design of experiments for mechanistic models |
| |
Authors: | Anthony C Atkinson |
| |
Institution: | London School of Economics and Political Science, UK |
| |
Abstract: | Summary. The paper develops methods for the design of experiments for mechanistic models when the response must be transformed to achieve symmetry and constant variance. The power transformation that is used is partially justified by a rule in analytical chemistry. Because of the nature of the relationship between the response and the mechanistic model, it is necessary to transform both sides of the model. Expressions are given for the parameter sensitivities in the transformed model and examples are given of optimum designs, not only for single-response models, but also for experiments in which multivariate responses are measured and for experiments in which the model is defined by a set of differential equations which cannot be solved analytically. The extension to designs for checking models is discussed. |
| |
Keywords: | Analytical chemistry Box–Cox transformation Chemical kinetics Direct method D-optimum design Model checking Parameter sensitivities |
|
|