Laurea Magistrale (M.Sc.) in Stochastics and Data Science

Statistics for stochastic processes

Statistics for stochastic processes

Academic year 2023/2024

Sommario del corso

• Course objectives
• Results of learning outcomes
• Program
• Course delivery
• Learning assessment methods
• Suggested readings and bibliography
• Notes
• Class schedule
• Teaching tools
• Course card

Course objectives

The goal of lectures is to introduce statistical inference for time series taking into account both the theoretical/mathematical aspects and their practical application to data analysis.

Time series are considered, aiming to characterize properties, asymptotic behavior, estimations and forecasting,  spectral analysis as well as decomposition in trend and seasonal components. Such concepts are applied to the analysis of simulated data or existing databases in order to infer and validate a model supporting the data.

Results of learning outcomes

Knowledge and understanding

By the end of the course, the student is able to transform a real problem into a statistical one and interpret results in an effective way for phenomena evolving during the time.  Moreover it is expected that the student is able to employ mathematical/statistical models for a better identification of the dependence and for forecasting the behaviour of the stochastic dynamic system under observation. 

Applying knowledge and understanding

The student is requested to be able to set out statistical models in order to make evidence of relations among variable both for individual data and time series and devise appropriate computational algorithms for the models. In particular, by the end of the course, the student will know 

• how to select a theoretical model, including parameter estimation;
• how to validate the theoretical model by using statistical test;
• how to forecast and predict the patterns with an estimation of the errors. 

Making judgements

By comparing the results obtained in performing the statistical analysis, the student has to be able to select which model better describes the dependence among the observed phenomena, when they are correlated by a temporal evolution.

Communication skills

The student must be able to communicate the information got from the qualitative and quantitative analysis by using the most appropriate terminology and the most useful graphical tools, aiming to avoid possible distortions, to optimize their employment and to  validate the analysis.

Learning skills

The skills acquired will give students the opportunity of improving and deepening their knowledge of the different aspects of stochastic modeling of observed time series also by using the computational skills acquired in the Lab.

Program

1. Introduction to Time series.

• Weak and strong stationarity.
• Autocovariance and autocorrelation functions: characterizations. 
• IID sequences and WN sequences.

     2. Models:

• Autoregressive
• Moving average
• ARMA
• Armonic 
• ARIMA
• causal, invertible and not redundant. 

     3. Estimation

• Sample mean, variance and autocovariance function.
• estimation of the parameters of AR and MA models 
• Yule-Walker equations
• ACF and PACF

     4. Forecasting.

• Conditional mean and best linear predictor.
• The n-step ahead predictor when the covariance matrix is non-singular and singular.
• Perfect predictable time series and the Wold decomposition. 
• Choosing p and q from data:  Akaike's criterion.
• The ARIMA procedure in R. 

     6. Spectral representation of simple processes.

• Spectral density.
• Bochner Theorem
• Computing the spectral density for various models.
• Relation with Wold's decomposition theorem.
• Short memory and long memory processes. 
• Periodogram.

      7. Simulation and statistical analysis of time series.

Course delivery

The course is structured in 48 hours of frontal teaching, divided into lessons of 2 hours according to academic calendar.  Classes are delivered in presence. Please enroll on Moodle page for updating and getting further teaching material. 

Learning assessment methods

The final assessment is foreseen to take place in presence. An online procedure with Webex video surveillance will be reserved for those whose absence is justified.

Who wants to be examined on the syllabus of the course given

• before the a.y.<2015-16
  • send an e-mail to Elvira Di Nardo, one week before the practical session, to organize the methods
• during the a.y. 2015-16 
  1. a practical session on the analysis of a dataset in the computer lab, including the descriptive analysis and a critical discussion (1hr);
  2. a short essay on one of the arguments introduced by Prof.Sirovich (immediately after the dataset analysis in the Lab) to verify the correct use of terminology and the hability to present a clear and concise exposition of the topics (30 mms);
  3. the final evaluation with an oral examination and a discussion on the practical session a couple of days later (20mns).

• from the a.y. 2015-16 to 2022-23(including the current a.y.)
  1. (in the computer lab) a written test including theoretical exercises as well as exercises that need the employment of R (1hr)
  2. (in the computer lab, immediately after the written test 1.) a short essay on one of the arguments introduced by the visiting professor (30 mms)
  3. oral exam a couple of days later.
     (For part 1.+2. there is no mark, just an evaluation which can be: excellent, very good, good, quite good, sufficient and not sufficient sent by e-mail through esse3.unito.it. This evaluation will be added to the oral examination mark to obtain the final mark. )
• from the a.y.2023-24 there is an oral exam.

Lectures in the classroom refers to

• M. Priestley "Spectral Analysis and time Series" - vol1 (1982), Academic Press
• Notes of Prof. Luis Gil Alana

Further references:

• Brockwell and Davis, Introduction to Time Series and Forecasting, Second Edition. Springer texts in statistics. 2002

• Shumway and Stoffer, Time series Analysis and Its Applications, Springer, 2011

• Brockwell and Davis, Time Series, theory and methods, Springer (collana SSS), New York, 1991

Notes

IMPORTANT!!!!

The course will start on Tuesday March 5th.

IMPORTANT!!!!

Class schedule

• Teaching material
• Exams and finals
• Class schedule
• Go to Moodle
• Register for the course
• Enrolled students
• Invia email agli studenti registrati
• Export table