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There is one fairly common circumstance in which both convergence problems and the Hauck-Donner phenomenon (and trouble with \sfn{step}) can occur. This is when the fitted probabilities are extremely close to zero or one. Consider a medical diagnosis problem with thousands of cases and around fifty binary explanatory variables (which may arise from coding fewer categorical factors); one of these indicators is rarely true but always indicates that the disease is present. Then the fitted probabilities of cases with that indicator should be one, which can only be achieved by taking \hat\beta_i = \infty. The result from \sfn{glm} will be warnings and an estimated coefficient of around +/- 10 [and an insignificant t value]. appartements tirages au sort Ballsbridge


There is one fairly common circumstance in which both convergence problems and the Hauck-Donner phenomenon (and trouble with \sfn{step}) can occur. This is when the fitted probabilities are extremely close to zero or one. Consider a medical diagnosis problem with thousands of cases and around fifty binary explanatory variables (which may arise from coding fewer categorical factors); one of these indicators is rarely true but always indicates that the disease is present. Then the fitted probabilities of cases with that indicator should be one, which can only be achieved by taking \hat\beta_i = \infty. The result from \sfn{glm} will be warnings and an estimated coefficient of around +/- 10 [and an insignificant t value].