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Regular version of the site
2024/2025

Machine Learning II

Type: Mago-Lego
Delivered by: Department of Educational Programmes
When: 1, 2 module
Open to: students of all HSE University campuses
Instructors: Andrey Zakharov
Language: English
ECTS credits: 3

Course Syllabus

Abstract

Prerequisites: Basic knowledge of statistics and Python. This course introduces methods of classical machine learning. Students will get familiar with the major supervised and unsupervised machine learning tasks and algorithms. The course is practice oriented. Thus students will acquire practical skills in data preparation, visual analysis, training of the appropriate models, evaluation of their quality, and selection of hyperparameters. At the end of the course students are expected to become able to solve real-world research problems with the classical machine learning techniques.
Learning Objectives

Learning Objectives

  • Students will get familiar with the basic concepts and methods of classical machine learning, and will acquire working knowledge of how to select and apply machine learning techniques to solve real world problems.
Expected Learning Outcomes

Expected Learning Outcomes

  • Students can prepare data for analysis
  • Students can make regression analysis
  • Students can apply basic classification algorithms
  • Students can apply ensemble models for classification or regression tasks
  • Students can apply basic techniques of dimensionality reduction
  • Students can make data clustering
  • Students can make tables with summary statistics and graphs
Course Contents

Course Contents

  • Data preprocessing
  • EDA. Data visualization
  • Regression
  • Classification
  • Ensembles
  • Dimensionality reduction
  • Cluster analysis
Assessment Elements

Assessment Elements

  • non-blocking EDA. Regression
    The homework assignment includes tasks related to exploratory data analysis and regression. Student presents the code and the output with the graphs, analysis estimates, interpretations etc. according to what is required in the tasks.
  • non-blocking Classification
    The homework assignment includes tasks related to classification. Student presents the code and the output with the graphs, analysis outputs, interpretations etc. according to what is required in the tasks.
  • non-blocking Unsupervised learning
    The homework assignment includes tasks related to unsupervised learning. Student presents the code and the output with the graphs, analysis outputs, interpretations etc. according to what is required in the tasks.
  • non-blocking Ensembles
    The homework assignment includes tasks related to work with ensembles. Student presents the code and the output with the graphs, analysis outputs, interpretations etc. according to what is required in the tasks.
Interim Assessment

Interim Assessment

  • 2024/2025 2nd module
    0.25 * Classification + 0.25 * EDA. Regression + 0.25 * Ensembles + 0.25 * Unsupervised learning
Bibliography

Bibliography

Recommended Core Bibliography

  • Aurélien Géron. (2019). Hands-On Machine Learning with Scikit-Learn, Keras, and TensorFlow : Concepts, Tools, and Techniques to Build Intelligent Systems: Vol. Second edition. O’Reilly Media.
  • Chris Albon. (2018). Machine Learning with Python Cookbook : Practical Solutions From Preprocessing to Deep Learning: Vol. First edition. O’Reilly Media.
  • Müller, A. C., & Guido, S. (2017). Introduction to Machine Learning with Python : A Guide for Data Scientists: Vol. First edition. Reilly - O’Reilly Media.
  • Myatt, G. J., & Johnson, W. P. (2014). Making Sense of Data I : A Practical Guide to Exploratory Data Analysis and Data Mining (Vol. Second edition). Hoboken, New Jersey: Wiley. Retrieved from http://search.ebscohost.com/login.aspx?direct=true&site=eds-live&db=edsebk&AN=809795

Recommended Additional Bibliography

  • Python for data analysis : data wrangling with pandas, numPy, and IPhython, Mckinney, W., 2017

Authors

  • ZAKHAROV ANDREY BORISOVICH