Article ID: | iaor201112609 |
Volume: | 27 |
Issue: | 4 |
Start Page Number: | 437 |
End Page Number: | 449 |
Publication Date: | Jun 2011 |
Journal: | Quality and Reliability Engineering International |
Authors: | Bashiri Mahdi, Hejazi T H, Noghondarian Kazem, Atkinson A C |
Keywords: | programming: goal |
In many complex experiments, nuisance factor may have large effects that must be accounted for. Covariates are one of the most important kinds of nuisance factors that can be measured but cannot be controlled within the experimental runs. In this paper a novel approach is proposed, based on goal programming, to find the best combination of factors so as to optimize multiresponse-multicovariate surfaces with consideration of location and dispersion effects. Furthermore, it is supposed that several covariates considered in the experiment have probability distributions of known form. One objective is to find the most probable values of each covariate. For this purpose, a multiobjective mathematical optimization model is proposed and its efficacy is demonstrated by two numerical examples.