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Machine Learning

Description

Students will learn how to design linear and nonlinear models for regression, prediction and classification as well as assess their performance. At the same time, they will learn how to use deep learning architectures and learning algorithms in key real-world applications. Algorithms for data clustering will be treated as well. Lab sessions will focus on practical aspects and show how to design an appropriate machine learning solution to real-world problems. More in detail, the course will address the following macro topics. Supervised learning: linear and nonlinear models for regression and prediction -also considering recurrent models-, statistical theory of learning, feature extraction and model selection. Deep learning: architectures including autoencoders, convolutional neural networks and learning procedures. Model performance assessment: cross validation, k-fold cross validation, leave-one-out, bootstrap, BLB. Unsupervised learning: K-means clustering, fuzzy C-means, principal component analysis.

 

REFERENCES

  • T.Hastie, R.Tibshirani, J.Friedman, The elements of statistical learning, Springer
  • Slides and material provided by the professor.

People

 

Alippi C.

Course director

Additional information

Semester
Spring
Academic year
2019-2020
ECTS
6
Language
English
Education
Bachelor of Science in Informatics, Elective course, Lecture, 3rd year

Master of Science in Economics in Finance, Core course, Minor in Digital Finance, 1st year