# Difference between revisions of "Machine Learning Bio"

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*[[Media:ML2020-lab01.zip | [2020] Material for the first lab session]]: some useful jupiter noteboks which will be used during the first lab session ([[Media:ML2020-lab01_solutions.zip |complete version]]) | *[[Media:ML2020-lab01.zip | [2020] Material for the first lab session]]: some useful jupiter noteboks which will be used during the first lab session ([[Media:ML2020-lab01_solutions.zip |complete version]]) | ||

*[[Media:ML2020-lab02.zip | [2020] Material for the second lab session]]: some useful jupiter noteboks which will be used during the second lab session ([[Media:ML2020-lab02_solutions.zip |complete version]]) | *[[Media:ML2020-lab02.zip | [2020] Material for the second lab session]]: some useful jupiter noteboks which will be used during the second lab session ([[Media:ML2020-lab02_solutions.zip |complete version]]) | ||

+ | *[[Media:ML2020-lab03.zip | [2020] Material for the third lab session]]: some useful jupiter noteboks which will be used during the third lab session ([[Media:ML2020-lab03_solutions.zip |complete version]]) | ||

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## Revision as of 22:31, 14 April 2020

The following are last minute news you should be aware of ;-)

* 04/04/2020: Updated schedule and added videos of previous lectures * 31/03/2020: Updated schedule and added material on linear algebra * 19/03/2020: Added lab material, both with empty notebooks and final result * 11/03/2020: Added today's lecture videos and planned next week schedule (To Be Completed) * 11/03/2020: The course starts today! * 03/03/2020: The course is going to start soon ...

## Contents

## Course Aim & Organization

The objective of the Machine Learning course is to give an in-depth presentation of the techniques most used for pattern recognition, knowledge discovery, and data analysis/modeling. These techniques are presented both from a theoretical (i.e., statistics and information theory) perspective and a practical one (i.e., coding examples) through the descriptions of algorithms and their implementations in a general purpose programming language.

The course presents the classical supervised and unsupervised learning paradigms described and discussed presenting regression, classification, and clustering problems in Bioinformatics. The course is composed by a set of lectures on specific machine learning techniques (e.g., generalized linear regression, logistic regression, linear and quadratic discriminant analysis, support vector machines, k-nearest-neighborhood, clustering, etc.) preceded by the introduction of the Statistical Learning framework which acts as a common reference framework for the entire course.

### Teachers

The course is composed by a blending of lectures and exercises by the course teacher and a teaching assistant.

- Matteo Matteucci: the course teacher
- Marco Cannici: the teaching assistant

### Course Program

The course mostly follows the following book which is also available for download in pdf

- An Introduction to Statistical Learning with Applications in R by Gareth James, Daniela Witten, Trevor Hastie and Robert Tibshirani

The course lectures will present the theory and practice of the following:

- Machine Learning and Pattern Classification: the general concepts of Machine Learning and Pattern Recognition are introduced within the framework of Statistical Decision Theory with reference to the bias-variance trade off and the Bayes classifier;
- Generalized Linear Regression: linear methods for regression will be presented and discussed introducing different techniques (e.g., Linear Regression, Ridge Regression, K-Nearest Neighbors Regression, Non Linear Regression, etc.) and the most common methodologies for model validation and selection (e.g., AIC, BIC, cross-validation, stepwise feature selection, Lasso, etc.).
- Linear and Non Linear Classification: generative and discriminative techniques for classification will be described and discussed (e.g., Logistic Regression, Linear and Quadratic Discriminant Analysis, K-Nearest Neighbors, Perceptron Rule and Support Vector Machines, etc.). Metrics for classifiers evaluation and comparison are presented in this part of the course (e.g., accuracy, precision, recall, ROC, AUC, F-measure, Matthew coefficient).
- Unsupervised Learning: the most common approaches to unsupervised learning are described mostly focusing on clustering methods such as hierarchical clustering, k-means, k-medoids, Mixture of Gaussians, DBSCAN, etc

These topics will be presented both from a theoretical perspective and a practical one via implementations in the general-purpose programming language python.

### Detailed course schedule

A detailed schedule of the course can be found here; topics are just indicative while days and teachers are correct up to some last minute change (I will notify you by email). Please note that not all days we have lectures!!

Note: Lecture timetable interpretation * On Wednesday, in room ..., starts at 014:15 (cum tempore), ends at 17:15 or 18:15 * On Thursday, in room ..., starts at 08:15 (cum tempore), ends at 10:15

Date | Day | Time | Room | Teacher | Type | Topic |

11/03/2020 | Wednesday | 14:15 - 18:15 | Teams Virtual Class | Theory | Matteo Matteucci | Course Introduction, Introduction to Machine Learning, and Statistical Machine Learning (Ch. 1 ISL) |

12/03/2020 | Thursday | 08:15 - 10:15 | Teams Virtual Class | Theory | Matteo Matteucci | Statistical Decision Theory and Bias-Variance trade off (Ch. 2 ISL) |

18/03/2020 | Wednesday | 14:15 - 17:15 | Teams Virtual Class | Practice | Marco Cannici | Python + Numpy + Bias/Variance Laboratory |

19/03/2020 | Thursday | 08:15 - 10:15 | Teams Virtual Class | Theory | Matteo Matteucci | Statistical Decision Theory and Bias-Variance trade off (continued) (Ch. 2 ISL) |

25/03/2017 | Wednesday | 14:15 - 17:15 | Teams Virtual Class | Theory | Matteo Matteucci | Simple Linear Regression and Multivariate Linear Regression (Ch. 2 ISL + Ch. 3 ISL) |

26/03/2017 | Thursday | 08:15 - 10:15 | Teams Virtual Class | Theory | Matteo Matteucci | Multivariate Linear Regression (continued) (Ch. 2 ISL + Ch. 3 ISL) |

01/04/2020 | Wednesday | 14:15 - 17:15 | Teams Virtual Class | Practice | Marco Cannici | Multivariae Linear Regression (Part 1) (Part 2) Laboratory |

02/04/2020 | Thursday | 08:15 - 10:15 | Teams Virtual Class | Theory | Matteo Matteucci | Generalized Linear Regression (Ch. 2 ISL + Ch. 3 ISL) |

08/04/2020 | Wednesday | 14:15 - 17:15 | Teams Virtual Class | Theory | Matteo Matteucci | [Feature Selection] (Ch. 3 + Ch. 6 ISL) |

09/04/2020 | Thursday | 08:15 - 10:15 | Teams Virtual Class | Theory | Matteo Matteucci | [Feature Selection (continued)] (Ch. 3 + Ch. 6 ISL) |

15/04/2020 | Wednesday | 14:15 - 17:15 | Teams Virtual Class | Practice | Marco Cannici | [Generalized Linear Regression and Feature Selection] Laboratory |

16/04/2020 | Thursday | 08:15 - 10:15 | Teams Virtual Class | Theory | Matteo Matteucci | [Feature Selection (continued)] (Ch. 3 + Ch. 6 ISL) |

22/04/2020 | Wednesday | 14:15 - 17:15 | Teams Virtual Class | Theory | Matteo Matteucci | Classification by Logistic Regression (Ch. 4 ISL + Ch. 4 ESL) |

23/04/2020 | Thursday | 08:15 - 10:15 | Teams Virtual Class | Theory | Matteo Matteucci | Classification by Logistic Regression (Ch. 4 ISL + Ch. 4 ESL) |

29/04/2020 | Wednesday | 14:15 - 17:15 | --- | --- | --- | --- No Lecture (Laurea) --- |

30/04/2020 | Thursday | 08:15 - 10:15 | Teams Virtual Class | Theory | Matteo Matteucci | Classification by Linear Discriminant Analysis (Ch. 4 ISL) |

Chapters are intended as complete except for

- Ch.4 ESL: Section 4.5
- Ch.12 ESL: Sections 12.1, 12.2, 12.3
- Ch.9 ISL: Sections 9.1, 9.2, 9.3

### Course Evaluation

The course evaluation is composed by two parts:

- HW: Homework with exercises covering the whole program (up to 6 points)
- WE: A written examination covering the whole program (up to 26 points)

the final score will be the sum of HW (not compulsory) and WE scores.

## Teaching Material (the textbook)

Lectures will be based on material taken from the book.

- An Introduction to Statistical Learning with Applications in R by Gareth James, Daniela Witten, Trevor Hastie and Robert Tibshirani

If you are interested in a more deep treatment of the topics you can refer to the following book from the same authors

- The Elements of Statistical Learning: Data Mining, Inference, and Prediction. by Trevor Hastie, Robert Tibshirani, and Jerome Friedman.

Some additional material that could be used to prepare the oral examination will be provided together with the past homeworks.

### Teacher Slides

In the following you can find the lecture slides used by the teacher and the teaching assistants during classes.

Lectures:

- [2020] Course introduction: introductory slides of the course with useful information about the grading, and the course logistics. Some examples from supervised and unsupervised learning. Regression, classification, clustering terminology and examples.
- [2020] Statistical Learning Introduction: Statistical Learning definition, rationale, and trade-offs (e.g., prediction vs. inference, parametric vs non parametric models, flexibility vs. interpretability, etc.)
- [2020] Linear Regression: Simple Linear Regression and Multiple Linear Regression. Generalized Linear models. Cross-validation techniques. Feature selection. Ridge Regression and Lasso.

Laboratories:

- [2020] Material for the first lab session: some useful jupiter noteboks which will be used during the first lab session (complete version)
- [2020] Material for the second lab session: some useful jupiter noteboks which will be used during the second lab session (complete version)
- [2020] Material for the third lab session: some useful jupiter noteboks which will be used during the third lab session (complete version)

### Additional Resources

Papers and links useful to integrate the textbook

- Basic Linear Algebra: "Basic Linear Algebra" chapter from Wayne Winston book "Operations Research Applications and Algorithms (4th ed.)"
- Bias vs. Variance: "Understanding the Bias-Variance Tradeoff" essay by Scott Fortmann-Roe
- Karush Kuhn Tucker Conditions: a short note on their meaning with references to relevant wikipedia pages
- Seeing Theory: a website where the basic concepts of probability and statistics are explained in a visual way.

### Online Resources

The following are links to online sources which might be useful to complement the material above

- Statistical Learning MOOC covering the entire ISL book offered by Trevor Hastie and Rob Tibshirani. Start anytime in self-paced mode.
- MATH 574M University of Arizona Course on
*Statistical Machine Learning and Data Mining*; here you can find slides covering part of the course topics (the reference book for this course is again*The Elements of Statistical Learning*)