Calculation of probability and statistical analysis

lmat1271  2023-2024  Louvain-la-Neuve

Calculation of probability and statistical analysis
6.00 credits
30.0 h + 30.0 h
Q2
Teacher(s)
von Sachs Rainer;
Language
Prerequisites
Courses LMAT1121 and LMAT1122 (real analysis/calculus, in particular bivariate integration).
Main themes
The general aim of the course consists in giving an introduction into the thinking and the tools of probability theory and statistical analysis, with a view towards applications. The addressed topics cover the basic notions of probability (and conditional probability) and the main distributions of random vectors. The course treats the concepts of independence and correlation, and some aspects of large sample properties. For the statistical analysis, priority is given to the parametric approach (estimation of the parameters of a probability distribution) and to methods of statistical inference (hypothesis testing and confidence intervals). The statistical concepts are applied to the specific problems of analysis of variance (ANOVA) and of (simple) linear regression.
Learning outcomes

At the end of this learning unit, the student is able to :

1 Contribution of the course to learning outcomes in the Bachelor in Mathematics programme.
By the end of this activity, students will be able to :

Recognise and understand a basic foundation of mathematics.
Choose and use the basic tools of calculation to solve mathematical problems.
Recognise the fundamental concepts of important current mathematical theories.
Establish the main connections between these theories, analyse them and explain them through the use of examples.
Show evidence of abstract thinking and of a critical spirit.
Argue within the context of the axiomatic method. Recognise the key arguments and the structure of a proof.
Distinguish between the intuition and the validity of a result and the different levels of rigorous understanding of this same result.
Learning outcomes specific to the course.
The general goal of the course is to introduce the student to the notion and the tools of probability theory and statistical analysis, with a view towards applications.

By the end of the course, students will be able to :
- Use the basic notions of probabilistic modelling, being able to worki with random variables :
- Apply the most frequently used techniques of probability theory (conditional probabilities and expectation, normal, Poisson and exponential laws) in various fields of application
- Explore structured data sets by the methods of statistical inference
- Apply the techniques of confidence intervals and hypothesis testing
 
Content
  • Recalling the concepts of random variables, generalised to random vectors, of conditional probabilities and conditional moments and of the transformation of random variables (in particular the concept of the moment-generating function)
  • Derivation of the random sampling distributions (Chi squared, F, Student, …), necessary in order to derive the properties of the most common statistics (estimators) 
  • Derivation and applications of asymptotic laws (Chebycheff inequality, law of large numbers, central limit theorem, ...)
  • Point estimation: method of moments, maximum likelihood method, least-squares method; theoretical properties of estimators (bias, variance, mean-square error, consistency, asymptotic normality, efficiency)
  • Confidance intervals (exact and asymptotical; based on the maximum likelihood estimator)
  • Statistical hypothesis testing (for the mean, variance, and proportion of one or two normal or binomial populations, respectively): method of pivots; likelihood ratio test,..
  • Linear regresion (simple and multiple), general notion of model fitting
  • (Time permitting) Introduction into modern data analysis techniques (resampling techniques; principal component analysis; clustering/classification)
Teaching methods
This second introductory course in probability and statistics will consist of :
  •     lectures that will present the subject on the basis of examples and the development of mathematical reasoning,
  •     exercise sessions aiming at systematically putting into practice the different notions seen in the course on well-targeted cases and with the help of a specialized software,
  •     projects that will give the student the opportunity to integrate the different tools in the fields of application of mathematics and physics.
The pedagogical approach used will privilege the active learning of the students and will try to respect the pedagogical orientations proposed by the Faculty.
Evaluation methods
  • During the semester :
    Continued evaluation via the preparation of a data-analysis project (in groups) using some statistical software and/or via some occasional tests (in groups) during the tutorials.
     
  • During the exam sessions :
    Assessment is based on a written examination that focuses on theory and on exercises.
    The examination tests knowledge and understanding of fundamental concepts and results, ability to construct and write a coherent argument, mastery of the techniques of calculation and, above all, the applicability of the methods covered in the course to problems in the statistical analysis of data.
Online resources
Site Moodle
https://moodleucl.uclouvain.be/course/view.php?id=8921
On the website can be found : copies of transparencies, exercice problems and their solutions, a list of formulas and statistical tables, the help file for using the statistical software, a copy of a recent exam and the detailed table of contents of the course.
Bibliography


D. Wackerly, W. Mendenhall, R. Scheaffer : "Mathematical Statistics with Applications" (7th ed.) 2008, Brooks/Cole.
Teaching materials
  • matériel sur moodle
Faculty or entity
MATH


Programmes / formations proposant cette unité d'enseignement (UE)

Title of the programme
Sigle
Credits
Prerequisites
Learning outcomes
Additionnal module in Physics

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Interdisciplinary Advanced Master in Science and Management of the Environment and Sustainable Development

Bachelor in Mathematics

Master [120] in Physics

Certificat d'université : Statistique et science des données (15/30 crédits)