1 / 10

More on linear regression – regression to the mean

More on linear regression – regression to the mean. Baseball Examples from Web. 1. Quartiles. 2. More on linear regression – regression to the mean. What causes regression to the mean? What causes the extreme score? Random variation (chance)? True score?

karma
Télécharger la présentation

More on linear regression – regression to the mean

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. More on linear regression – regression to the mean • Baseball Examples from Web 1 Quartiles 2

  2. More on linear regression – regression to the mean • What causes regression to the mean? • What causes the extreme score? • Random variation (chance)? • True score? • A bit of each…the more random variation there is, the more regression to the mean will occur • Example: • Think of 2 exams…in each of 2 cases • Case 1: Exam 1 and exam 2 scores totally determined by ability • Case 2: Exam 1 and exam 2 scores determined 50% by ability, 50% by chance variation (feeling good , knew that question, misunderstood a word, etc) 1 2

  3. More on linear regression – regression to the mean • Correlate exam 1 with exam 2 in each case: • Case 1: Case 2: Exam 2 Exam 2 1 2 Exam 1 Exam 1

  4. More on linear regression – regression to the mean 1 2 • What if we take z-scores of each variable? Intercept now = 0 4 5 3 Slope now = r 6

  5. More on linear regression – regression to the mean • So, regression to the mean is proportional to r…useful to know in situations when post-test scores and pre-test scores are not perfectly correlated (all the time!) • Means outliers on the pre-test will generally drift towards the mean on the post-test • Originally demonstrated by Galton with offspring (taller parents had kids that were in general closer to mean height) • This is actually where the term regression came from in the procedure • See “the sophomore sink” and “but I regress” (web site) • Used in all good fantasy sport estimators 1

  6. E.G. – Tattoos & workout time The thing we are trying to predict – workout time 1 2 The predictor - # tattoos

  7. E.G. - Output First box is just telling you what you analyzed - 1 2nd box is quite informative – let’s look at that 2

  8. E.G. - Output 4. 68% of people’s predicted # hours workout time will fall +/- 3.35 of the value predicted using regression equation 1. Pearson’s r correlation between the two variables 2. Coefficient of Determination - % of variance in workout hours accounted for by # tattoos 3. Adjusts the R2 value based on sample size…small samples tend to overestimate the ability to predict the DV with the IV

  9. E.G. – Output (continued) 2. Still significant... 1. ANOVA stuff – that’s after the midterm. For now, note that the two procedures give you the same answer 3. Intercept, slope 4. a) Intercept different from 0? b) Is this relationship reliable (significant, greater than chance, etc...)?

  10. E.G. – Output (continued) • How effectively can we predict a (male) person’s workout hours per week from the number of tattoos he has? • Answer/interpretation: • A simple linear regression was calculated predicting males’ workout hours per week from their number of tattoos. A significant regression equation was found (F(1,53) = 7.27, p<.05), explaining 12.1% of the variance in workout hours. People’s workout hours are equal to 5.21 + .90 times the number of tattoos they have. Males’ workout hours increase by .90 hours for each additional tattoo they possess. • Weird! • Next time… 1 2 3

More Related