Solved: Reference test and formula associated with the graph

HDlite · Jun 27, 2023 10:58 AM

Dear All,

I am new to using JMP software,

I created this topic concerning the graphs generated by the JMP software,

As you can see in the attachment, I have generated the "Residual by Predicted Plot" and also the "Residual Normal Quantile Plot" graphs. This corresponds perfectly to my needs, but for my knowledge, I'd like to know what statistical test was carried out to obtain the graphs, as well as the associated formulas, if any?

Could you help me with this, please?

Thank you for your time,

Best regards,

Mark_Bailey · Jun 27, 2023 12:18 PM

The residual plots are part of the post-analysis to assess model adequacy and the assumptions of the regression model. The residual is the predicted or fitted Y minus the observed Y. The residual estimates the statistical error.

The assumptions include that the statistical errors are independent and identically normally distributed with a mean of zero and a constant variance (i.e., variance is independent of Y). The normal quantile plot results from fitting a normal distribution and plotting the fitted quantiles against the residual value. The scaling is unique to each distribution model. The scaling results in a linear relationship between the quantiles and the errors. In the case of the normal quantile plot, the slope of the line is the standard deviation, and the y-intercept is the mean. If you see a pattern that is not linear overall, then the assumption of normal errors is violated. If you see a linear pattern but one or more quantiles are far from the line at the ends of the plot, then you might have outliers.

The residual by predicted plot is used to assess the adequacy of the model. The identity reference line shows where Y = X. You expect the observations to follow this line. A large departure from the line overall suggests lack of fit. A large departure from the line by some observations suggests outliers. This plot also helps assess the constant variance. The plot should exhibit a uniform spread of residuals from low to high predicted values. That is, the magnitude of the residuals does not depend on the response. The appearance of a funnel shape indicates a violation of this assumption. Ordinary least square regression is inappropriate in such cases.

The assumption that all the statistical error is in Y and none of it is in X is not assessed with the residual plots. They also assume the same thing.

View solution in original post

Mark_Bailey · Jun 27, 2023 11:20 AM

Did you read the documentation about the Bivariate platform?

HDlite · Jun 27, 2023 11:39 AM

Dear Mark,

Thanks for your answer,

Indeed, I find the following formula:

If I understand correctly, this means that JMP generates different graphs (see below) from this formula, is that correct?

Thank you for your help,

Best regards,

Mark_Bailey · Jun 27, 2023 12:18 PM

The residual plots are part of the post-analysis to assess model adequacy and the assumptions of the regression model. The residual is the predicted or fitted Y minus the observed Y. The residual estimates the statistical error.

The assumptions include that the statistical errors are independent and identically normally distributed with a mean of zero and a constant variance (i.e., variance is independent of Y). The normal quantile plot results from fitting a normal distribution and plotting the fitted quantiles against the residual value. The scaling is unique to each distribution model. The scaling results in a linear relationship between the quantiles and the errors. In the case of the normal quantile plot, the slope of the line is the standard deviation, and the y-intercept is the mean. If you see a pattern that is not linear overall, then the assumption of normal errors is violated. If you see a linear pattern but one or more quantiles are far from the line at the ends of the plot, then you might have outliers.

The residual by predicted plot is used to assess the adequacy of the model. The identity reference line shows where Y = X. You expect the observations to follow this line. A large departure from the line overall suggests lack of fit. A large departure from the line by some observations suggests outliers. This plot also helps assess the constant variance. The plot should exhibit a uniform spread of residuals from low to high predicted values. That is, the magnitude of the residuals does not depend on the response. The appearance of a funnel shape indicates a violation of this assumption. Ordinary least square regression is inappropriate in such cases.

The assumption that all the statistical error is in Y and none of it is in X is not assessed with the residual plots. They also assume the same thing.

Reference test and formula associated with the graph

Re: Reference test and formula associated with the graph

Re: Reference test and formula associated with the graph

Re: Reference test and formula associated with the graph

Re: Reference test and formula associated with the graph