Università di Pavia - Offerta formativa

STATISTICAL LEARNING THEORY

Anno immatricolazione

2019/2020

Anno offerta

2020/2021

Normativa

DM270

SSD

ING-INF/04 (AUTOMATICA)

Dipartimento

DIPARTIMENTO DI INGEGNERIA INDUSTRIALE E DELL'INFORMAZIONE

Corso di studio

COMPUTER ENGINEERING

Curriculum

Computer Science and Multimedia

Anno di corso

2°

Periodo didattico

Primo Semestre (28/09/2020 - 22/01/2021)

Crediti

6

Ore

45 ore di attività frontale

Lingua insegnamento

English

Tipo esame

SCRITTO

Docente

Prerequisiti

Matrix algebra; elements of probability: scalar and vector random variables; elements of statistics: estimators and their properties.

Obiettivi formativi

Knowledge of main learning methods for classification and regression, of their properties and limitations. Ability to translate an experimental learning problem into a statistical formulation and select an appropriate method for its solution.

Programma e contenuti

Introduction: Supervised and Unsupervised Learning.

Statistical Learning: Statistical Learning and Regression, Curse of Dimensionality and Parametric Models, Assessing Model Accuracy and Bias-Variance Trade-off, Classification Problems and K-Nearest Neighbors.

Linear Regression: Simple Linear Regression and Confidence Intervals, Hypothesis Testing, Multiple Linear Regression, Model Selection, Interactions and Nonlinearity.

Classification: Introduction to Classification, Logistic Regression and Maximum Likelihood, Linear Discriminant Analysis and Bayes Theorem, Naive Bayes.

Resampling Methods: Estimating Prediction Error and Validation Set Approach, K-fold Cross-Validation, Cross-Validation: The Right and Wrong Ways, The Bootstrap.

Linear Model Selection and Regularization: Linear Model Selection and Best Subset Selection, Stepwise Selection, Estimating Test Error Using Mallowâ€™s Cp, AIC, BIC, Adjusted R-squared, Cross-Validation, Shrinkage Methods and Ridge Regression, The Lasso, Principal Components Regression and Partial Least Squares.

Moving Beyond Linearity: Polynomial Regression, Piecewise Polynomials and Splines, Smoothing Splines, Local Regression and Generalized Additive Models.

Tree-Based Methods: Decision Trees, Classification Trees and Comparison with Linear Models, Bootstrap Aggregation (Bagging) and Random Forests, Boosting.

Support Vector Machines: Support Vector Classifier, Kernels and Support Vector Machines.

Unsupervised Learning: Unsupervised Learning and Principal Components Analysis, K-means Clustering.

The fallacies of learning: regression to mediocrity, the covariate shift, statistical significance vs practical significance, correlation is not causation, observational vs experimental studies.

Statistical Learning: Statistical Learning and Regression, Curse of Dimensionality and Parametric Models, Assessing Model Accuracy and Bias-Variance Trade-off, Classification Problems and K-Nearest Neighbors.

Linear Regression: Simple Linear Regression and Confidence Intervals, Hypothesis Testing, Multiple Linear Regression, Model Selection, Interactions and Nonlinearity.

Classification: Introduction to Classification, Logistic Regression and Maximum Likelihood, Linear Discriminant Analysis and Bayes Theorem, Naive Bayes.

Resampling Methods: Estimating Prediction Error and Validation Set Approach, K-fold Cross-Validation, Cross-Validation: The Right and Wrong Ways, The Bootstrap.

Linear Model Selection and Regularization: Linear Model Selection and Best Subset Selection, Stepwise Selection, Estimating Test Error Using Mallowâ€™s Cp, AIC, BIC, Adjusted R-squared, Cross-Validation, Shrinkage Methods and Ridge Regression, The Lasso, Principal Components Regression and Partial Least Squares.

Moving Beyond Linearity: Polynomial Regression, Piecewise Polynomials and Splines, Smoothing Splines, Local Regression and Generalized Additive Models.

Tree-Based Methods: Decision Trees, Classification Trees and Comparison with Linear Models, Bootstrap Aggregation (Bagging) and Random Forests, Boosting.

Support Vector Machines: Support Vector Classifier, Kernels and Support Vector Machines.

Unsupervised Learning: Unsupervised Learning and Principal Components Analysis, K-means Clustering.

The fallacies of learning: regression to mediocrity, the covariate shift, statistical significance vs practical significance, correlation is not causation, observational vs experimental studies.

Metodi didattici

Lectures, practical class.

Testi di riferimento

Friedman, J., Hastie, T., & Tibshirani, R. (2001). The elements of statistical learning (Vol. 1, No. 10). New York: Springer series in statistics.

Modalità verifica apprendimento

Written examination: two theory-based questions and two practical ones.

Altre informazioni

Written examination: two theory-based questions and two practical ones.

Obiettivi Agenda 2030 per lo sviluppo sostenibile