CS-E4830 - Kernel Methods in Machine Learning D, Lecture, 2.3.2022-2.6.2022
Kurssiasetusten perusteella kurssi on päättynyt 02.06.2022 Etsi kursseja: CS-E4830
Osion kuvaus
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Course logistics
- Lectures: Wed, 12:15pm (see also section "Zoom")
- Exercise sessions: Please come to TU1 Saab Auditorium. Won't be recorded.
- Discussions take place in Zulip: https://kmml22.zulip.aalto.fi/join/sxhncjfkzttuozcrzrn6g5bm/
- Assignments: To be submitted in MyCourses (Pen & Paper) and online in Jupyter Hub (Programming).
- Exam: 02.06.2022, Check Sisu for location.
Schedule
Date (dd.mm.yyyy) Activity Location 02.03.2022 (12:15) Lecture 1 Zoom 09.03.2022 (12:15) Lecture 2 Zoom 10.03.2022 (16:15) Python Tutorial TU1 Saab Auditorium 11.03.2022 Assignment 1 release 16.03.2022 (12:15) Lecture 3 17.03.2022 (16:15) Assignment 1 exercise session TU1 Saab Auditorium 21.03.2022 (16:00) Assignment 1 due 23.03.2022 (12:15) Lecture 4 Zoom 25.03.2022 Assignment 2 release 30.03.2022 (12:15) Lecture 5 Zoom 31.03.2022 (16:15) Assignment 2 exercise session TU1 Saab Auditorium 06.04.2022 (12:15) Lecture 6 Zoom 06.04.2022 (16:00) Assignment 2 due 20.04.2022 (12:15) Lecture 7 Zoom 22.04.2022 Assignment 3 release 27.04.2022 (12:15) Lecture 8 Zoom 28.04.2022 (16:15) Assignment 3 exercise session TU1 Saab Auditorium 04.05.2022 (12:15) Lecture 9 (by Dr. Riikka Huusari) Zoom 04.05.2022 (16:00) Assignment 3 due 11.05.2022 (12:15) Self study of review slides
(No zoom lecture)02.06.2022 (09:00) Exam Check Sisu for location
Contents
Inner product spaces, Kernels, Reproducing kernels, and RKHS. Introductory learning theory and Generalization. Empirical Risk Minimization, Uniform Convergence and Rademacher Complexity. Kernel Ridge Regression and Logistic Regression. Optimization and Duality. Margin-based methods and Support vector machines. Unsupervised learning including clustering, PCA and their kernel variants.
Course personnel
- Lecturer: Rohit Babbar
- Course assistants: Petrus Mikkola, Adrian Müller, Mohammadreza Qaraei
Grading
The course can be completed by two alternative ways:
- Assignments (max. 50 points) + Exam (max. 50 points) giving a grade 0..5. The assignment part has a weightage of 50% and exam of 50%. In aggregate, lowest passing points total is 40. 85 points will give the grade of 5.
- Exam only (max. 50 points), giving a grade 0..5. 20 points will give the grade 1, 45 points will give the grade of 5.
The better of the resulting two grades will be taken into account.
Prerequisite knowledge
- The course Machine Learning: Supervised Methods (CS-E4710), or equivalent knowledge, strongly recommended
- Basics of probability and linear algebra
- Python programming skills are recommended (We will use Python, but there will be an introductory python tutorial.)
Learning Outcomes
After attending the course, the student knows the basics of kernels, positive-definiteness, and RKHS. The courses also formally introduces the notions of generalization in machine learning by studying the principle of Empirical Risk Minimization and its consistency. The student knows how convex optimization methods can be used to efficiently train kernel-based and large-scale linear models. It is also discussed how to apply kernel based methods for unsupervised learning such as PCA.
Language of Instruction: English
Course Material
- Lecture slides and exercises are the examined content
- Further references will be provided during respective lectures
Course position and Prerequisites
Course is MSc level in Machine learning, targeted to 1st/2nd year MSc students in Machine Learning and Computer science. Also suitable for PhD studies.
- Lectures: Wed, 12:15pm (see also section "Zoom")