After successful completion of the course, students are able to:
(1) Comprehend the basic concepts of recommender systems,
(2) Distinguish the differences among various recommendation methods,
(3) “Recommend” appropriate recommendation techniques and evaluation strategies when faced with a task,
(4) Implement basic recommendations methods and evaluate them over real datasets and tasks.
The programming assignments are to be done in Python using Jupyter Notebooks. A short introduction to using Jupyter Notebooks will be given. In class, there will be a discussion of the assignments, solving any problems encountered, and at then end the solutions will be overviewed.
The project is to be done in any programming language and environment. There will be dedicated lectures for the project. Also, students will be motivated (by bonus points) to actively help each other.
This course is an overview of the general research area of Recommender Systems. The goal of these systems is to address the information overload problem (multitude of choices) people face in everyday life. Examples include selecting news articles to read, a movie to watch, a travel destination, friends to connect with, a restaurant to dine, buying a product.
The course will introduce the basic concepts, that is, users, items, preferences, explicit/implicit feedback, and proceed to explain important tasks, such as modeling a user’s preferences and an item’s attractiveness, collecting feedback from users, predicting the degree of interest of a user for an item, evaluating effectiveness. For these tasks the course will overview the most important approaches taken, and discuss the state-of-the-art. Towards the end of the course, certain advanced specialized topics, recently being investigated by the research community, will be discussed.
The students will be asked to implement simple approaches using real-life datasets, and work on a real-case task related to current challenges in the field.
Workload for students (in hours):
- Preliminary Discussion: 0,5
- Lecture Time: 13*1,5=19,5
- Practical Part (Assignments and Project Work): 35
- Test and Preparation for it: 20
The course involves individual programming assignments and a goup project as well as a final written exam.
- 4 Programming Assignments in Python using Jupyter Notebooks, where you fill in the missing code. (20% of total grade)
- 1 Project in Python partly done in groups. (40% of total grade)
- The written offline exam is closed book with open and multiple choice questions. (40% of total grade)
