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Linear Regression Analysis 5E Montgomery, Peck and Vining 1 Chapter 6 Diagnostics for Leverage and Influence
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Linear Regression Analysis 5E Montgomery, Peck and Vining 2 6.1 Importance of Detecting Influential Observations Leverage Point: –unusual x-value; –very little effect on regression coefficients.
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Linear Regression Analysis 5E Montgomery, Peck and Vining 3 6.1 Importance of Detecting Influential Observations Influence Point: unusual in y and x;
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Linear Regression Analysis 5E Montgomery, Peck and Vining 4 6.2 Leverage The hat matrix is: H = X(XX) - 1 X The diagonal elements of the hat matrix are given by h ii = x i (XX) -1 x i h ii – standardized measure of the distance of the ith observation from the center of the x- space.
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Linear Regression Analysis 5E Montgomery, Peck and Vining 5 6.2 Leverage The average size of the hat diagonal is p/n. Traditionally, any h ii > 2p/n indicates a leverage point. An observation with large h ii and a large residual is likely to be influential
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Linear Regression Analysis 5E Montgomery, Peck and Vining 6
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7 Example 6.1 The Delivery Time Data Examine Table 6.1; if some possibly influential points are removed here is what happens to the coefficient estimates and model statistics:
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Linear Regression Analysis 5E Montgomery, Peck and Vining 8 6.3 Measures of Influence The influence measures discussed here are those that measure the effect of deleting the ith observation. 1.Cook’s D i, which measures the effect on 2.DFBETAS j(i), which measures the effect on 3.DFFITS i, which measures the effect on 4.COVRATIO i, which measures the effect on the variance-covariance matrix of the parameter estimates.
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Linear Regression Analysis 5E Montgomery, Peck and Vining 9 6.3 Measures of Influence: Cook’s D What contributes to D i : 1.How well the model fits the ith observation, y i 2.How far that point is from the remaining dataset. Large values of D i indicate an influential point, usually if D i > 1.
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Linear Regression Analysis 5E Montgomery, Peck and Vining 10
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Linear Regression Analysis 5E Montgomery, Peck and Vining 11 6.4 Measures of Influence: DFFITS and DFBETAS DFBETAS – measures how much the regression coefficient changes in standard deviation units if the ith observation is removed. where is an estimate of the jth coefficient when the ith observation is removed. Large DFBETAS indicates ith observation has considerable influence. In general, |DFBETAS j,i | > 2/
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Linear Regression Analysis 5E Montgomery, Peck and Vining 12 6.4 Measures of Influence: DFFITS and DFBETAS DFFITS – measures the influence of the ith observation on the fitted value, again in standard deviation units. Cutoff: If |DFFITS i | > 2, the point is most likely influential.
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Linear Regression Analysis 5E Montgomery, Peck and Vining 13 6.4 Measures of Influence: DFFITS and DFBETAS Equivalencies See the computational equivalents of both DFBETAS and DFFITS (page 217). You will see that they are both functions of R- student and h ii.
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Linear Regression Analysis 5E Montgomery, Peck and Vining 14
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Linear Regression Analysis 5E Montgomery, Peck and Vining 15 6.5 A Measure of Model Performance Information about the overall precision of estimation can be obtained through another statistic, COVRATIO i
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Linear Regression Analysis 5E Montgomery, Peck and Vining 16 6.5 A Measure of Model Performance Cutoffs and Interpretation If COVRATIO i > 1, the ith observation improves the precision. If COVRATIO i < 1, ith observation can degrade the precision. Or, Cutoffs: COVRATIO i > 1 + 3p/n or COVRATIO i 3p).
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Linear Regression Analysis 5E Montgomery, Peck and Vining 17
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Linear Regression Analysis 5E Montgomery, Peck and Vining 18 6.6 Detecting Groups of Influential Observations Previous diagnostics were “single- observation” It is possible that a group of points have high-leverage or exert undue influence on the regression model. Multiple-observation deletion diagnostic can be implemented.
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Linear Regression Analysis 5E Montgomery, Peck and Vining 19 6.6 Detecting Groups of Influential Observations Cook’s D can be extended to incorporate multiple observations: where i denotes the m 1 vector of indices specifying the points to be deleted. Large values of D i indicate that the set of m points are influential.
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Linear Regression Analysis 5E Montgomery, Peck and Vining 20 6.7 Treatment of Influential Observations Should an influential point be discarded? Yes, if –there is an error in recording a measured value; –the sample point is invalid; or, –the observation is not part of the population that was intended to be sampled No, if –the influential point is a valid observation.
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Linear Regression Analysis 5E Montgomery, Peck and Vining 21 6.7 Treatment of Influential Observations Robust estimation techniques –These techniques offer an alternative to deleting an influential observation. –Observations are retained but downweighted in proportion to residual magnitude or influence.
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