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Simple Linear Regression

Simple Linear Regression. Least squares line Interpreting coefficients Prediction Cautions The formal model. Section 2.6, 9.1, 9.2. Professor Kari Lock Morgan Duke University. Exam 2 Grades. In Class:. Lab:. Total:. Comments on In-Class Exam.

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Simple Linear Regression

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  1. Simple Linear Regression • Least squares line • Interpreting coefficients • Prediction • Cautions • The formal model • Section 2.6, 9.1, 9.2 • Professor Kari Lock Morgan • Duke University

  2. Exam 2 Grades In Class: Lab: Total:

  3. Comments on In-Class Exam • Test whether this data provides evidence that Melanoma is found significantly more often on the left side of the body: one categorical variable -> single proportion • 2011 Hollywood movies: If the sample is the same as the population, then no need for inference! • Standard deviation of a bootstrap distribution is the standard error

  4. Comments on Lab Exam • Most common reason for points off: applying the wrong method • The first step should ALWAYS be asking yourself: What is/are the variable(s)? Are they categorical or quantitative? • Always plot/visualize your data. Outliers can strongly affect the results; you should either explain why they are left in, or else remove them

  5. Simulation Methods • For any one or two variables, resample( ) gives a confidence interval • For any two variables, reallocate( ) tests for an association between the variables • No conditions to check! • Automatically deals with missing data! • Only two commands to remember! • No distributions to remember!

  6. MODELING

  7. Crickets and Temperature • Can you estimate the temperature on a summer evening, just by listening to crickets chirp? Response Variable, y We will fit a model to predict temperature based on cricket chirp rate Explanatory Variable, x

  8. Linear Model • A linear modelpredicts a response variable, y, using a linear function of explanatory variables • Simple linear regressionpredicts on response variable, y, as a linear function of one explanatory variable, x • We will create a model that predicts temperature as a linear function of cricket chirp rate

  9. Regression Line • Goal: Find astraight line that best fits the data in a scatterplot

  10. Predicted and Actual Values • The actual response value, y, is the response value observed for a particular data point • The predicted response value, , is the response value that would be predicted for a given x value, based on a model • In linear regression, the predicted values fall on the regression line directly above each x value • The best fitting line is that which makes the predicted values closest to the actual values

  11. Predicted and Actual Values

  12. Residual • The residual for each data point is • or the vertical distance from the point to the line Want to make all the residuals as small as possible. How would you measure this?

  13. Least Squares Regression • Least squares regressionchooses the regression line that minimizes the sum of the squared residuals

  14. Least Squares Regression

  15. Equation of the Line • The estimated regression line is • Slope: increase in predicted y for every unit increase in x • Intercept: predicted y value when x = 0 Intercept Slope

  16. Regression in R • > lm(Temperature~Chirps) • Call: • lm(formula = Temperature ~ Chirps) • Coefficients: • (Intercept) Chirps • 37.6786 0.2307

  17. Regression Model • Which is a correct interpretation? • The average temperature is 37.69 • For every extra 0.23 chirps per minute, the predicted temperate increases by 1 degree • Predicted temperature increases by 0.23 degrees for each extra chirp per minute • For every extra 0.23 chirps per minute, the predicted temperature increases by 37.69

  18. Units • It is helpful to think about units when interpreting a regression equation y units y units x units degrees degrees/ chirps per min chirps per minute degrees

  19. Prediction • The regression equation can be used to predict y for a given value of x • If you listen and hear crickets chirping about 140 times per minute, your best guess at the outside temperature is

  20. Prediction

  21. Prediction • If the crickets are chirping about 180 times per minute, your best guess at the temperature is • 60 • 70 • 80

  22. Exam Scores • Calculate your residual.

  23. Prediction • The intercept tells us that the predicted temperature when the crickets are not chirping at all is 37.69. Do you think this is a good prediction? • (a) Yes • (b) No

  24. Regression Caution 1 • Do not use the regression equation or line to predict outside the range of x values available in your data (do not extrapolate!) • If none of the x values are anywhere near 0, then the intercept is meaningless!

  25. Duke Rank and Duke Shirts • Are the rank of Duke among schools applied to and the number of Duke shirts owned • positively associated • negatively associated • not associated • other

  26. Duke Rank and Duke Shirts • Are the rank of Duke among schools applied to and the number of Duke shirts owned • positively associated • negatively associated • not associated • other

  27. Regression Caution 2 • Computers will calculate a regression line for any two quantitative variables, even if they are not associated or if the association is not linear • ALWAYS PLOT YOUR DATA! • The regression line/equation should only be used if the association is approximately linear

  28. Regression Caution 3 • Outliers (especially outliers in both variables) can be very influential on the regression line • ALWAYS PLOT YOUR DATA! • http://illuminations.nctm.org/LessonDetail.aspx?ID=L455

  29. Life Expectancy and Birth Rate Which of the following interpretations is correct? A decrease of 0.89 in the birth rate corresponds to a 1 year increase in predicted life expectancy Increasing life expectancy by 1 year will cause the birth rate to decrease by 0.89 Both Neither Coefficients: (Intercept) LifeExpectancy 83.4090 -0.8895

  30. Regression Caution 4 • Higher values of x may lead to higher (or lower) predicted values of y, but this does NOT mean that changing x will cause y to increase or decrease • Causation can only be determined if the values of the explanatory variable were determined randomly (which is rarely the case for a continuous explanatory variable)

  31. Explanatory and Response • Unlike correlation, for linear regression it does matter which is the explanatory variable and which is the response

  32. r = 0 • Challenge: If the correlation between x and y is 0, what would the regression line be?

  33. Simple Linear Model • The population/true simple linear model is • 0 and 1, are unknown parameters • Can use familiar inference method! Intercept Slope Random error

  34. Inference for the Slope • Confidence intervals and hypothesis tests for the slope can be done using the familiar formulas: • Population Parameter: 1, Sample Statistic: • Use t-distribution with n – 2 degrees of freedom

  35. Inference for Slope Give a 95% confidence interval for the true slope. Is the slope significantly different from 0? (a) Yes (b) No

  36. Confidence Interval > qt(.975,5) [1] 2.570582 We are 95% confident that the true slope, regressing temperature on cricket chirp rate, is between 0.194 and 0.266 degrees per chirp per minute.

  37. Hypothesis Test > 2*pt(16.21,5,lower.tail=FALSE) [1] 1.628701e-05 There is strong evidence that the slope is significantly different from 0, and that there is an association between cricket chirp rate and temperature.

  38. Small Samples • The t-distribution is only appropriate for large samples (definitely not n = 7)! • We should have done inference for the slope using simulation methods...

  39. If results are very significant, it doesn’t really matter if you get the exact p-value… you come to the same conclusion!

  40. Project 2 • Details here • Group project on regression (modeling) • If you want to change groups, email me TODAY OR TOMORROW. If other people in your lab section want to change, I’ll move people around. • Need a data set with a quantitative response variable and multiple explanatory variables; explanatory variables must have at least one categorical and at least one quantitative • Proposal due next Wednesday

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