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Class 6: Tuesday, Sep. 28 Section 2.4. Checking the assumptions of the simple linear regression model: –Residual plots –Normal quantile plots Outliers and influential observations
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Checking the model The simple linear regression model is a great tool but its answers will only be useful if it is the right model for the data. We need to check the assumptions before using the model. Assumptions of the simple linear regression model: 1.Linearity: The mean of Y|X is a straight line. 2.Constant variance: The standard deviation of Y|X is constant. 3.Normality: The distribution of Y|X is normal. 4.Independence: The observations are independent.
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Checking that the mean of Y|X is a straight line 1.Scatterplot: Look at whether the mean of Y given X appears to increase or decrease in a straight line.
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Residual Plot Residuals: Prediction error of using regression to predict Y i for observation i:, where Residual plot: Plot with residuals on the y axis and the explanatory variable (or some other variable) on the x axis.
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Residual Plot in JMP: After doing Fit Line, click red triangle next to Linear Fit and then click Plot Residuals. What should the residual plot look like if the simple linear regression model holds? Under simple linear regression model, the residuals should have approximately a normal distribution with mean zero and a standard deviation which is the same for all X. Simple linear regression model: Residuals should appear as a “swarm” of randomly scattered points about zero. Ideally, you should not be able to detect any patterns. (Try not to read too much into these plots – you’re looking for gross departures from a random scatter). A pattern in the residual plot that for a certain range of X the residuals tend to be greater than zero or tend to be less than zero indicates that the mean of Y|X is not a straight line.
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Checking Constant Variance Use residual plot of residuals vs. X to check constant variance assumption. Constant variance: Spread of residuals is similar for all ranges of X Nonconstant variance: Spread of residuals is different for different ranges of X. –Fan shaped plot: Residuals are increasing in spread as X increases –Horn shaped plot: Residuals are decreasing in spread as X increases.
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Checking Normality If the distribution of Y|X is normal, then the residuals should have approximately a normal distribution. To check normality, make histogram and normal quantile plot of residuals. In JMP, after using Fit Line, click red triangle next to Linear Fit and click save residuals. Click Analyze, Distribution, put Residuals in Y, click OK and then after histogram appears, click red triangle next to Residuals and click Normal Quantile Plot.
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Normal Quantile Plot Section 1.3. Most useful tool for assessing normality. Plot of residuals (or whatever variable is being checked for normality) on y-axis versus z-score of percentile of data point. If the true distribution is normal, the normal quantile plot will be a straight line. Deviations from a straight line indicate that the distribution is not normal. The dotted red lines are “confidence bands.” If all the points lie inside the confidence bands, then we feel that the normality assumption is reasonable.
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Independence In a problem where the data is collected over time, plot the residuals vs. time. For simple linear regression model, there should be no pattern in residuals over time. Pattern in residuals over time where residuals are higher or lower in early part of data than later part of data indicates that relationship between Y and X is changing over time and might indicate that there is a lurking variable. Lurking variable: A variable that is not among the explanatory or response variables in a study and yet may influence the interpretation of relationships among those variables.
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Residual vs. Time Example Mathematics dept. at large state university must plan number of instructors required for large elementary courses and wants to predict enrollment in elementary math courses (y) based on number of first-year students (x). Data in mathenroll.JMP Residual plot vs. time in JMP: After fit y by x, fit line, click red triangle next to linear fit and click save residuals. Then use fit y by x with y = residuals and x = year.
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Residual Plots
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Analysis of Math Enrollment Residual plot versus time order indicates that there must be a lurking variable associated with time, in particular there is a change in the relationship between y and x between 1997 and 1998. In fact, one of schools in the university changed its program to require that entering students take another mathematics course beginning in 1998, increasing enrollment. Implication: Data from before 1998 should not be used to predict future math enrollment.
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What to Do About Violations of Simple Linear Regression Model Coming up in the Future: Nonlinearity: Transformations (Chapter 2.6), Polynomial Regression (Chapter 11) Nonconstant Variance: Transformations (Chapter 2.6) Nonnormality: Transformations (Chapter 2.6). Lack of independence: Incorporate time into multiple regression (Chapter 11), time series techniques (Stat 202).
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Outliers and Influential Observations Outlier: Any really unusual observation. Outlier in the X direction (called high leverage point): Has the potential to influence the regression line. Outlier in the direction of the scatterplot: An observation that deviates from the overall pattern of relationship between Y and X. Typically has a residual that is large in absolute value. Influential observation: Point that if it is removed would markedly change the statistical analysis. For simple linear regression, points that are outliers in the x direction are often influential.
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Housing Prices and Crime Rates A community in the Philadelphia area is interested in how crime rates are associated with property values. If low crime rates increase property values, the community might be able to cover the costs of increased police protection by gains in tax revenues from higher property values. The town council looked at a recent issue of Philadelphia Magazine (April 1996) and found data for itself and 109 other communities in Pennsylvania near Philadelphia. Data is in philacrimerate.JMP. House price = Average house price for sales during most recent year, Crime Rate=Rate of crimes per 1000 population.
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Which points are influential? Center City Philadelphia is influential; Gladwyne is not. In general, points that have high leverage are more likely to be influential.
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Formal measures of leverage and influence Leverage: “Hat values” (JMP calls them hats) Influence: Cook’s Distance (JMP calls them Cook’s D Influence). To obtain them in JMP, click Analyze, Fit Model, put Y variable in Y and X variable in Model Effects box. Click Run Model box. After model is fit, click red triangle next to Response. Click Save Columns and then Click Hats for Leverages and Click Cook’s D Influences for Cook’s Distances. To sort observations in terms of Cook’s Distance or Leverage, click Tables, Sort and then put variable you want to sort by in By box.
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Center City Philadelphia has both influence (Cook’s Distance much Greater than 1 and high leverage (hat value > 3*2/99=0.06). No other observations have high influence or high leverage.
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Rules of Thumb for High Leverage and High Influence High Leverage Any observation with a leverage (hat value) > (3 * # of coefficients in regression model)/n has high leverage, where # of coefficients in regression model = 2 for simple linear regression. n=number of observations. High Influence: Any observation with a Cook’s Distance greater than 1 indicates a high influence.
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What to Do About Suspected Influential Observations? See flowchart handout. Does removing the observation change the substantive conclusions? If not, can say something like “Observation x has high influence relative to all other observations but we tried refitting the regression without Observation x and our main conclusions didn’t change.”
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If removing the observation does change substantive conclusions, is there any reason to believe the observation belongs to a population other than the one under investigation? –If yes, omit the observation and proceed. –If no, does the observation have high leverage (outlier in explanatory variable). If yes, omit the observation and proceed. Report that conclusions only apply to a limited range of the explanatory variable. If no, not much can be said. More data (or clarification of the influential observation) are needed to resolve the questions. General principle: Delete observations from the analysis sparingly – only when there is good cause (does not belong to population being investigated or is a point with high leverage). If you do delete observations from the analysis, you should state clearly which observations were deleted and why.
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Summary Before using the simple linear regression model, we need to check its assumptions. Check linearity, constant variance, normality and independence by using scatterplot, residual plot and normal quantile plot. Influential observations: observations that, if removed, would have a large influence on the fitted regression model. Examine influential observations, remove them only with cause (belongs to a different population than being studied, has high leverage) and explain why you deleted them. Next class: Lurking variables, causation (Sections 2.4, 2.5).
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