Abstract
Multiple response surface methodology (MRSM) most often involves the analysis of small sample size datasets which have associated inherent statistical modeling problems. Firstly, classical model selection criteria in use are very inefficient with small sample size datasets. Secondly, classical model selection criteria have an acknowledged selection uncertainty problem. Finally, there is a credibility problem associated with modeling small sample sizes of the order of most MRSM datasets. This work focuses on determination of a solution to these identified problems. The small sample model selection uncertainty problem is analysed using sixteen model selection criteria and a typical two-input MRSM dataset. Selection of candidate models, for the responses in consideration, is done based on response surface conformity to expectation to deliberately avoid selection of models using the problematic classical model selection criteria. A set of permutations of combinations of response models with conforming response surfaces is determined. Each combination is optimised and results are obtained using overlaying of data matrices. The permutation of results is then averaged to obtain credible results. Thus, a transparent multiple model approach is used to obtain the solution which gives some credibility to the small sample size results of the typical MRSM dataset. The conclusion is that, for a two-input process MRSM problem, conformity of response surfaces can be effectively used to select candidate models and thus the use of the problematic model selection criteria is avoidable.
Highlights
Introduction and Literature ReviewMultiple response surface methodology (MRSM) is when an industrial process with more than one response variable is investigated and studied through the analysis of reliably generated response models and corresponding response surfaces at some region of operability
This paper focuses on the problems encountered with the use of model selection criteria in selecting best models with particular interest in MRSM
Selecting candidate response models based on conformity of response surfaces avoids the uncertainty and small sample size bias problems that are related to using classical model selection criteria in selecting best models
Summary
Multiple response surface methodology (MRSM) is when an industrial process with more than one response variable is investigated and studied through the analysis of reliably generated response models and corresponding response surfaces at some region of operability. The third problem with industrial MRSM work is that most studies fall within small data analytics since they are based on analysing response models generated from datasets emanating from running designed experiments Such experiments are designed to be cost effective and at the same time are expected to provide optimum information. The permutation of response model combinations converts to the permutation of results which can be averaged to obtain the best result This multi-model approach maintains the rigour required in model selection to ensure convincing and credible solutions for the small sample size problems in MRSM.
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