Solved: Re: Regarding the Prediction Expression

Kimani · Jun 8, 2023 05:07 PM

Hi members,

I am conducting an RSM design on jmp 16 and I want to extract the prediction expression for the model. This is the prediction expression I got.

The centre points for x1 and x2 are 25 and 10 respectively.

I am trying to wonder why the variables are centred using the centre points for this type of model. (I thought it only applies to first-order models to account for curvature)
When reporting this model in writing, should I leave the equation as it is?

Any help will be greatly appreciated. Thank you in advance.

HadleyMyers · Jan 24, 2022 04:40 AM

Hi,

It may be helpful to know that you can covert the second expression to the first by saving the prediction formula to the table, opening it using the Formula editor and selecting "Simplify" from the red-triangle menu:

View solution in original post

Mark_Bailey · Jan 25, 2022 12:05 PM

There are many ways and reasons to transform variables. The transformation that you encountered is called 'coding.' It is considered a best practice when analyzing data from a designed experiment for several reasons. The JMP design platforms (e.g., Custom Design) add the Coding column property to the continuous factor data columns when you click Make Table. The Fit Least Squares platform recognizes this column property and internally applies the transformation.

Interpretation:

Without coding, the parameter estimates depend on the scale (i.e., measurement units). It is difficult to answer questions such as, "Which factor is the most important?" just by examining the estimates. On the other hand, coded factor levels lead to scale-invariant estimates. They still represent the change in the response for a one unit change in the factor, but now that is half the factor range for all factors. (For this reason, the estimate using coded factor levels are sometimes referred to as 'half effects.') Also, the intercept is usually necessary for modeling but meaningless. With coding, the intercept is always now the mean response at the origin of your design space.

Power:

We always want estimates with the smallest standard error, regardless of the purpose of the experiment (e.g., screening versus optimization). The design determines the correlation among the estimates. Uncorrelated estimates will have the smallest standard error. Correlation will inflate the variation of the estimates and, therefore, their standard errors. Perfectly correlated errors have infinite variance and are therefore inseparable. The effects represented by these parameters are confounded. Coding the factor levels minimizes the correlation among the estimates.

Stability:

Model hierarchy is related to coding. We strongly recommend that you maintain model hierarchy when you add or remove terms from the model. One reason is that the model will be unstable if you later change (transform) variables, such as reversing the coding transformation. Using the Simplify function in the formula editor as suggested by @HadleyMyers produces a different model (some terms vanish, new terms appear) if you do not maintain the hierarchy when selecting your model.

View solution in original post

HadleyMyers · Jan 24, 2022 04:40 AM

Hi,

It may be helpful to know that you can covert the second expression to the first by saving the prediction formula to the table, opening it using the Formula editor and selecting "Simplify" from the red-triangle menu:

Kimani · Jan 25, 2022 04:57 AM

Thank you for showing me the means to a simplified version of the regression equation. I am still new to regression modelling. I also wanted to know why we do not use the parameter estimates as they are. What is usually the reason behind centering the predictor variables using the centre points in the prediction expression?

SDF1 · Jan 25, 2022 08:43 AM

Hi @Kimani ,

When JMP performs the fitting, it will center the X factors by default (I think), unless you specify it not to. The reason is that the algorithm can determine a better estimate of the betas, the coefficients. Doing it this way helps to push a lot of the unknown error of the fit to the constant, epsilon, thereby reducing the errors of the fit estimates, the betas.

Hope this makes sense and helps,

DS

Mark_Bailey · Jan 25, 2022 12:05 PM

There are many ways and reasons to transform variables. The transformation that you encountered is called 'coding.' It is considered a best practice when analyzing data from a designed experiment for several reasons. The JMP design platforms (e.g., Custom Design) add the Coding column property to the continuous factor data columns when you click Make Table. The Fit Least Squares platform recognizes this column property and internally applies the transformation.

Interpretation:

Without coding, the parameter estimates depend on the scale (i.e., measurement units). It is difficult to answer questions such as, "Which factor is the most important?" just by examining the estimates. On the other hand, coded factor levels lead to scale-invariant estimates. They still represent the change in the response for a one unit change in the factor, but now that is half the factor range for all factors. (For this reason, the estimate using coded factor levels are sometimes referred to as 'half effects.') Also, the intercept is usually necessary for modeling but meaningless. With coding, the intercept is always now the mean response at the origin of your design space.

Power:

We always want estimates with the smallest standard error, regardless of the purpose of the experiment (e.g., screening versus optimization). The design determines the correlation among the estimates. Uncorrelated estimates will have the smallest standard error. Correlation will inflate the variation of the estimates and, therefore, their standard errors. Perfectly correlated errors have infinite variance and are therefore inseparable. The effects represented by these parameters are confounded. Coding the factor levels minimizes the correlation among the estimates.

Stability:

Model hierarchy is related to coding. We strongly recommend that you maintain model hierarchy when you add or remove terms from the model. One reason is that the model will be unstable if you later change (transform) variables, such as reversing the coding transformation. Using the Simplify function in the formula editor as suggested by @HadleyMyers produces a different model (some terms vanish, new terms appear) if you do not maintain the hierarchy when selecting your model.

Kimani · Jan 27, 2022 01:45 AM

Thank you very much for the elaborative explanation @Mark_Bailey. The explanation will go a long way in helping me understand the regression model.