86840 - PRACTICAL STATISTICS FOR PHYSICS AND ASTROPHYSICS

Anno Accademico 2020/2021

  • Modalità didattica: Convenzionale - Lezioni in presenza
  • Campus: Bologna
  • Corso: Laurea Magistrale in Astrofisica e cosmologia (cod. 8018)

Conoscenze e abilità da conseguire

Nontrivial data analysis problems are frequently encountered in modern astronomy, cosmology and physics. They require an understanding of statistical methods, practical skills with software tools and sometimes some ingenuity that comes with experience. The student will gain a practical knowledge of statistical methods and software as applied to many example problems. Basic probability theory will be covered before learning about Bayesian and frequentest inference problems, Monte Carlo techniques, Fisher matrices, random fields, parameter estimation, non-parametric tests, hypothesis testing, and supervised and unsupervised classification and regression problems. The student will become familiar with current software in Python for analysing data and fitting models while getting an understanding of the theory behind them.

Contenuti

Starting with the basic probability theory and the classical probability distributions, the course will move on to the theory and practice of modern statistical methods that are widely used in physics and astronomy today. Analytic methods for curve fitting and frequentist parameter estimation will be covered. Numerical Monte Carlo and bootstrap methods will be covered. Then Bayesian inference methods and numerical methods for solving them such as Markov Chains will be studied. If time permits and depending on student interest, we will move on to some of the following topics : 1) random fields and estimating correlation functions and power spectra from irregularly sampled data, 2) image reconstruction from noisy data, Wiener filtering, maximum entropy and deconvolution methods, 3) introduce machine learning class and regression methods, 4) the connection between probability, information theory and statistical machanics.

The laboratory part of the course will start with a general introduction to python if needed and then cover the libraries by numpy, scikit and scikit-learn through example projects. The lab will follow the lecture material with practical examples to workout.

Testi/Bibliografia

Lecture notes will the the most important.

Reference texts:

DeGroot and Schervish, Probability and Statistics, Addison Wesley
P. Gregory, Bayesian Logical Data Analysis for the Physical Sciences, Cambridge University Press

Metodi didattici

The course will consist of a combination of lectures to introduce theory and a computer lab where practical skill will be developed.

Modalità di verifica e valutazione dell'apprendimento

Oral exams and written computer lab assignments.

Strumenti a supporto della didattica

Blackboard, video projector, and computer lab.

Link ad altre eventuali informazioni

https://rbmetcalf.github.io/Practical-Statistics/

Orario di ricevimento

Consulta il sito web di Robert Benton Metcalf