30457 - STATISTICS - MODULE 2 (APPLIED STATISTICS)
Department of Decision Sciences
SIMONE PADOAN
Suggested background knowledge
Mission & Content Summary
MISSION
CONTENT SUMMARY
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Introduction to the course content and teaching materials. Point estimation: basic concepts and examples (Chapters 5.1 of the textbook A and notes).
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Confidence intervals: basic concepts, mean (with known and unknown variance) and variance of the normal population (Chapters 5.3 of the textbook A and notes).
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Confidence intervals based on large samples for the mean, proportion and other parameters (Chapters 5.2, 5.3, 5.4 and 5.5 of the textbook A and notes).
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Confidence interval for the difference between the means of two normal populations: case of dependent samples and independent samples with known variances and with unknown but equal variances (Chapters 7.1, 7.2, 7.3 and 7.4 of the textbook A and notes).
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Hypothesis testing: basic concepts (null and alternative hypothesis, type I and type II errors, rejection region, level of significance). Test for the mean of a normal population (known variance) (Chapters 6.1 and 6.2 of the textbook A and notes).
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P-value. Test for the mean of a normal population (unknown variance). Test for the proportion of a population (large samples) (Chapters 6.1, 6.3 of the textbook A and notes).
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Calculation of the Type II error probability and of the power of a test. Test for the difference between the means of two normal populations: dependent samples, independent samples (with known variances and with unknown but equal variances) (Chapters 6.4 and 6.6 of the textbook A and notes).
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Confidence intervals and hypothesis testing: the pivotal quantity approach (Notes).
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Likelihood-based inference: basic concepts (Chapters 2.1, 2.2, 2.3 and 2.5 of the textbook B and notes).
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Likelihood-based inference: confidence intervals (Chapters 2.4, 2.6, 2.7, 4.1, 4.4 and 4.8 and notes).
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Likelihood-based inference: large sample testing (Chapters 9.1, 9.2, 9.3, 9.4 and 9.5 of the textbook B and notes).
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Review of the likelihood-based inference and exercises (Notes).
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Correlation and simple linear regression (basic notions) (Chapters 9.1 and 9.4 of the textbook A and notes).
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Linear regression: least squares and model assumptions (Chapters 9.2, 9.3 and 9.6 of the textbook A and Notes).
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Inference for linear regression model: confidence intervals and hypothesis testing (Chapter 9.5 of the textbook A and notes).
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Linear regression model: prediction and goodness of fit (Notes).
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Analysis of the variance I (Chapters 12.2 and 12.3 of the textbook A and notes)
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Analysis of the variance II (Notes).
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Combining ANOVA and Regression (Chapters 12.1 and 12.4 of the textbook A and notes).
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Goodness of fit tests (Chapters 8.1 and 8.2 of the textbook A and notes).
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Categorical data analysis I (measures of association: nominal and ordinal variables) (Chapters 8.3, 8.4 and 8.5 of the textbook A and notes).
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Categorical data analysis II (odds and odds ratio) (Chapter 8.4 of the textbook A and notes).
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Logistic regression I (Chapters 15.1, 15.3 of the textbook A and notes).
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Logistic regression II (Chapters 15.4, 15.5 of the textbook A and notes).
Intended Learning Outcomes (ILO)
KNOWLEDGE AND UNDERSTANDING
- Recognize different types of inferential problems.
- Identify the appropriate inferential tool to solve the problem.
- Recognize different types of statistical models underlying the problems.
APPLYING KNOWLEDGE AND UNDERSTANDING
- Build simple statistical models.
- Provide interval estimates and test hypotheses on the unknown parameters of a population on the basis of sample data.
- Use the R software to perform real data statistical analysis.
Teaching methods
- Face-to-face lectures
- Exercises (exercises, database, software etc.)
DETAILS
- Face-to-face lectures and Exercises (exercises, database, software etc.)
- Exercises (Exercises, database, software etc.): the learning phase includes workshops where students practice with statistical analysis of real data sets in order to learn how to perform and interpret real research management reports. Students have the opportunity to learn how to use the software R for data analysis on real databases provided by the instructor. Finally theoretical exercises are solved together with the instructor during exercise and tutorial lessons.
Assessment methods
Continuous assessment | Partial exams | General exam | |
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x | x | |
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x | x |
ATTENDING AND NOT ATTENDING STUDENTS
The assessment methods have been designed to stimulate your active involvement in the course. The grade breakdown is as follows:
- Group assignment: 30%
- First and second partial or final written exam: 70%
- At the end of the course there is an exam to test the knowledge acquired. There is a written exam with questions and exercises on the topics taught in class (see the detailed description). The maximum grade for the final exam is 22 points. To consider the final written exam successfully passed students need to obtain a grade of 12 points. Alternatively, students can complete two partial exams during the course. The maximum grade for the partial exams is still 22 points for both. Students can attend the second partial exam if they have obtained a minimum grade of 11 points in the first partial exam. If the second partial exam is not handed in, the student must take the final exam. To consider the the two written partial exams successfully passed students need to obtain an average grade of 12 points between the two exams.
- During the course there is also an assignment (empirical analysis) that students should perform on their own or in groups and hand in before the end of the course. This assignment is worth a maximum of 9 points. The grade of the assignment is valid also for the following academic years; hence you do not need to repeat the assignment. To consider the final successfully passed students need to obtain a grade of 18 points out of 31. The examination procedures are the same for students who attend and do not attend the classes.
Teaching materials
ATTENDING AND NOT ATTENDING STUDENTS
- A. AGRESTI, B. FINLAY, Statistical Methods for the Social Sciences, Prentice Hall, 2017, 5th edition.
- Y. PAWITAN, In All Likelihood: Statistical Modelling and Inference Using Likelihood, Oxford University Press, 2001.
- A selection of notes and other materials, available in the course reserve (Bboard).