Logistic Error
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Logistic Regression Assumptions
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Logistic Regression Error Variance
answers are voted up and rise to the top Logistic Regression - Error Term and its Distribution up vote 12 down vote favorite 6 On whether an error term exists in logistic regression (and its assumed distribution), I have read in various places that: no error term exists the error term has a binomial distribution (in accordance with the distribution of the response variable) the error term has a logistic distribution logistic regression model Can someone please clarify? logistic binomial bernoulli-distribution share|improve this question edited Nov 20 '14 at 12:43 Frank Harrell 39.1k173156 asked Nov 20 '14 at 10:57 user61124 6314 4 With logistic regression - or indeed GLMs more generally - it's typically not useful to think in terms of the observation $y_i|\mathbf{x}$ as "mean + error". Better to think in terms of the conditional distribution. I wouldn't go so far as to say 'no error term exists' as 'it's just not helpful to think in those terms'. So I wouldn't so much say it's a choice between 1. or 2. as I would say it's generally better to say "none of the above". However, irrespective of the degree to which one might argue for "1." or "2.", though, "3." is definitely wrong. Where did you see that? –Glen_b♦ Nov 20 '14 at 13:52 @Glen_b: Might one argue for (2)? I've known people to say it but never to defend it when it's questioned. –Scortchi♦ Nov 20 '14 at 14:49 2 @Glen_b All three statements have constructive interpretations in which they are true. (3) is addressed at en.wikipedia.org/wiki/Logistic_distribution#Applications and en.wikipedia.org/wiki/Discrete_choice#Binary_Choice. –whuber♦ Nov 20 '14 at 20:11 @whuber: I've corrected my answer wrt (3), which wasn't well t
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Logistic Regression Example
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Diagnostics NOTE: This page is under construction!! In the previous two chapters, we focused on issues regarding logistic regression analysis, such as how to create interaction variables and how to interpret the results http://www.ats.ucla.edu/stat/stata/webbooks/logistic/chapter3/statalog3.htm of our logistic model. In order for our analysis to be valid, our model has to satisfy the assumptions of logistic regression. When the assumptions of logistic regression analysis are not met, we may have problems, such as biased coefficient estimates or very large standard errors for the logistic regression coefficients, and these problems may lead to invalid statistical inferences. Therefore, before we can use our model to make any statistical logistic regression inference, we need to check that our model fits sufficiently well and check for influential observations that have impact on the estimates of the coefficients. In this chapter, we are going to focus on how to assess model fit, how to diagnose potential problems in our model and how to identify observations that have significant impact on model fit or parameter estimates. Let's begin with a review of the assumptions of logistic logistic regression error regression. The true conditional probabilities are a logistic function of the independent variables. No important variables are omitted. No extraneous variables are included. The independent variables are measured without error. The observations are independent. The independent variables are not linear combinations of each other. In this chapter, we are going to continue to use the apilog dataset. use http://www.ats.ucla.edu/stat/Stata/webbooks/logistic/apilog, clear 3.1 Specification Error When we build a logistic regression model, we assume that the logit of the outcome variable is a linear combination of the independent variables. This involves two aspects, as we are dealing with the two sides of our logistic regression equation. First, consider the link function of the outcome variable on the left hand side of the equation. We assume that the logit function (in logistic regression) is the correct function to use. Secondly, on the right hand side of the equation, we assume that we have included all the relevant variables, that we have not included any variables that should not be in the model, and the logit function is a linear combination of the predictors. It could happen that the logit function as the link function is not the correct choice or the relationship between the logit of outcome variable and the independent variables is not linear. In
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