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Statistics II PROF. DIEGO ATTILIO MANCUSO COURSE AIMS The course aims to introduce the fundamentals of inferential statistics which are needed for decision-making in the presence of sample information. COURSE CONTENT INSTRUCTIONAL OBJECTIVES THAT THE STUDENT SHOULD HAVE ACHIEVED BEFORE TAKING THE COURSE It is assumed that students enrolling in this course have taken and passed the courses Statistics I and General Mathematics II. INSTRUCTIONAL OBJECTIVES OF THE COURSE 1. Elements of the calculus of probability – Complements about several random variables: a) Poisson process; b) Gamma function and beta function; c) Gamma (and chi-squared) and beta random variables; d) normal random variable, one- and two-dimensional random variables, p-dimensional random variable; e) Poisson random variable, and negative exponential random variable; f) logistic random variable. – Central convergence theorem. Review of other asymtotic theorems. – Moments and functions generating moments, in particular for the binomial, Poisson, Gamma (e chi-squared), and normal random variables. – Cochran theorem. – Random variable transformations. Sampling and sample random variables: the Student t random variable, and Fisher F random variable. The delta method. .] Order statistics. 2. Elements of statistical mathematics – Multivariate random variables: the Gauss multivariate distribution. – Statistical informer. The probability function. – Point estimation. Properties of the estimators. Methods for determination of the estimators: The moments method and the maximum probability method. Minimum variance estimators. Distribution of minimum variance estimators. – Interval estimation. Construction of confidence intervals, pivotal quantities, probability intervals. – Verification of hypotheses. Significance tests. Tests based on the probability relationship. 3. Elements of regression analysis – – – – Analysis of the variance with a classification criterion. References about the regression function: descriptive aspects. Regression functions in the event of a bivariate normal random variable. Analysis of simple regression. Gauss-Markov theorem. Estimates of maximum probability for the normal regression model, and related tests. Estimation of the conditional mean value. Calculation of a predictive interval. – Multiple regression analysis: (a) with ordinary least squares method, (b) with weighted least squares method. The problem of multicollinearity. READING LIST Recommended reading G. CICCHITELLI, Probabilità e statistica, Maggioli editore, Rimini, 2001. B.V. FROSINI, Analisi di regressione, EDUCatt, Milan, 2011. B.V. FROSINI, Complementi sulle variabili casuali, EDUCatt, Milan, 2012. Supplemental reading G. CASELLA-R.L. BERGER, Statistical inference, Pacific Grove CA, Duxbury. R. HOGG-J. MCKEAN-A. CRAIG, Introduction to Mathematical Statistics, Pearson Education, 2005. D. PICCOLO, Statistica per le decisioni, Il Mulino, Bologna. C.R. RAO, Linear statistical inference and its applications, Wiley, New York. N.A. WEISS, Calcolo delle probabilità, Pearson-Addison Wesley, Milan. TEACHING METHOD Lectures. ASSESSMENT METHOD Written test. NOTES Further information can be found on the lecturer's webpage at http://docenti.unicatt.it/web/searchByName.do?language=ENG, or on the Faculty notice board.
