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mcPlots

Draw Linear Model Marginal and Conditional Plots in Parallel or Overlaid


Description

the mcPlot function draws two graphs or overlays the two graphs. For a response Y and a regressor X, the first plot is the marginal plot of Y versus X with both variables centered, visualizing the conditional distribution of Y given X ignoring all other regressors. The second plot is an added-variable for X after all other regressors, visualizing the conditional distribution of Y given X after adjusting for all other predictors. The added variable plot by default is drawn using the same xlim and ylim as the centered marginal plot to emphasize that conditioning removes variation in both the regressor and the response.The plot is primarily intended as a pedagogical tool for understanding coefficients in first-order models.

Usage

mcPlots(model, ...)

## Default S3 method:
mcPlots(model, terms=~., layout=NULL, ask, overlaid=TRUE, ...)

mcPlot(model, ...)

## S3 method for class 'lm'
mcPlot(model, variable, id=FALSE,
    col.marginal=carPalette()[2], col.conditional=carPalette()[3],
    col.arrows="gray", pch = c(16,1), lwd = 2, grid=TRUE,
    ellipse=FALSE, overlaid=TRUE, new=TRUE, title=TRUE, ...)

Arguments

model

model object produced by lm.

terms

A one-sided formula that specifies a subset of the predictors. One added-variable plot is drawn for each regressor and for each basis vector used to define a factor. For example, the specification terms = ~ . - X3 would plot against all terms except for X3. If this argument is a quoted name of one of the regressors or factors, the added-variable plot is drawn for that regressor or factor only. Unlike other car functions, the formula should include the names of regressors, not predictors. That is, if log(X4) is used to represent a predictor X4, the formula should specify terms = ~ log(X4).

variable

A quoted string giving the name of a numeric predictor in the model matrix for the horizontal axis. To plot against a factor, you need to specify the full name of one of the indicator variables that define the factor. For example, for a factor called type with levels A, B and C, using the usual drop-first level parameterization of the factor, the regressors for type would be typeB or typeC. Similarly, to plot against the regressor log(X4), you must specify "log((X4)", not "X4".

layout

If set to a value like c(1, 2) or c(6, 2), the layout of the graph will have this many rows and columns. If not set, behavior depends on the value of the overlaid argument; see the details

ask

If TRUE, ask the user before drawing the next plot; if FALSE don't ask.

...

mcPlots passes these arguments to mcPlot. mcPlot passes arguments to plot.

id

controls point identification; if FALSE (the default), no points are identified; can be a list of named arguments to the showLabels function; TRUE is equivalent to list(method=list(abs(residuals(model, type="pearson")), "x"), n=2, cex=1, col=carPalette()[1], location="lr"), which identifies the 2 points with the largest residuals and the 2 points with the most extreme horizontal (X) values.

overlaid

If TRUE, the default, overlay the marginal and conditional plots on the same graph; otherwise plot them side-by-side. See the details below

col.marginal, col.conditional

colors for points, lines, ellipses in the marginal and conditional plots, respectively. The defaults are determined by the carPalette function.

col.arrows

color for the arrows with overlaid=TRUE

pch

Plotting character for marginal and conditional plots, respectively.

lwd

line width; default is 2 (see par).

grid

If TRUE, the default, a light-gray background grid is put on the graph.

ellipse

Arguments to pass to the dataEllipse function, in the form of a list with named elements; e.g., ellipse.args=list(robust=TRUE)) will cause the ellipse to be plotted using a robust covariance-matrix. if FALSE, the default, no ellipse is plotted. TRUE is equivalent to ellipse=list(levels=0.5), which plots a bivariate-normal 50 percent concentration ellipse.

new

if TRUE, the default, the plot window is reset when overlaid=FALSE using par{mfrow=c(1, 2)}. If FALSE, the layout of the plot window is not reset. Users will ordinarily ignore this argument.

title

If TRUE, the default, the standard main argument in plot is used to add a standard title to each plot. If FALSE no title is used.

Details

With an lm object, suppose the response is Y, X is a numeric regressor of interest, and Z is all the remaining predictors, possibly including interactions and factors. This function produces two graphs. The first graph is the marginal plot of Y versus X, with each variable centered around its mean. The second conditional plot is the added-variable plot of e(Y|Z) versus e(X|Z) where e(a|b) means the Pearson residuals from the regression of a on b. If overlaid=TRUE, these two plots are overlaid in one graph, with the points in different colors. In addition, each point in the marginal plot is joined to its value in the conditional plot by an arrow. Least squares regression lines fit to the marginal and conditional graphs are also shown; data ellipsoids can also be added. If overlaid=FALSE, then the two graphs are shown in side-by-side plots as long as the second argument to layout is equal to 2, or layout is set by the function. The arrows are omitted if the graphs are not overlaid.

These graphs are primarily for teaching, as the marginal plot shows the relationship between Y and X ignoring Z, while the conditional is the relationship between Y and X given X. By keeping the scales the same in both graphs the effect of conditioning on both X and Y can be visualized.

This function is intended for first-order models with numeric predictors only. For a factor, one (pair) of mcPlots will be produced for each of the dummy variables in the basis for the factor, and the resulting plots are not generally meaningful because they depend on parameterization. If the mean function includes interactions, then mcPlots for main effects may violate the hierarchy principle, and may also be of little interest. mcPlots for interactions of numerical predictors, however, can be useful.

These graphs are closely related to the ARES plots proposed by Cook and Weisberg (1989). This plot would benefit from animation.

Value

These functions are used for their side effect of producing plots.

Author(s)

John Fox jfox@mcmaster.ca, Sanford Weisberg sandy@umn.edu

References

Cook, R. D. and Weisberg, S. (1989) Regression diagnostics with dynamic graphics, Technometrics, 31, 277.

Fox, J. (2016) Applied Regression Analysis and Generalized Linear Models, Third Edition. Sage.

Fox, J. and Weisberg, S. (2019) An R Companion to Applied Regression, Third Edition, Sage.

Weisberg, S. (2014) Applied Linear Regression, Fourth Edition, Wiley.

See Also

Examples

m1 <- lm(partic ~ tfr + menwage + womwage + debt + parttime, data = Bfox)
mcPlot(m1, "womwage")
mcPlot(m1, "womwage", overlaid=FALSE, ellipse=TRUE)

car

Companion to Applied Regression

v3.0-10
GPL (>= 2)
Authors
John Fox [aut, cre], Sanford Weisberg [aut], Brad Price [aut], Daniel Adler [ctb], Douglas Bates [ctb], Gabriel Baud-Bovy [ctb], Ben Bolker [ctb], Steve Ellison [ctb], David Firth [ctb], Michael Friendly [ctb], Gregor Gorjanc [ctb], Spencer Graves [ctb], Richard Heiberger [ctb], Pavel Krivitsky [ctb], Rafael Laboissiere [ctb], Martin Maechler [ctb], Georges Monette [ctb], Duncan Murdoch [ctb], Henric Nilsson [ctb], Derek Ogle [ctb], Brian Ripley [ctb], William Venables [ctb], Steve Walker [ctb], David Winsemius [ctb], Achim Zeileis [ctb], R-Core [ctb]
Initial release
2020-09-23

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