2023 Faculty Courses School of Computing Department of Mathematical and Computing Science Graduate major in Mathematical and Computing Science

Information Visualization

Academic unit or major: Graduate major in Mathematical and Computing Science
Instructor(s): Ken Wakita
Class Format: Lecture (Face-to-face)
Media-enhanced courses: -
Day of week/Period (Classrooms): 5-6 Tue (W9-322(W931)) / 5-6 Fri (W9-322(W931))
Class: -
Course Code: MCS.T412
Number of credits: 200
Course offered: 2023
Offered quarter: 2Q
Syllabus updated: Jul 8, 2025
Language: Japanese

Syllabus

Course overview and goals

This course outlines the basics and the recent trends in information visualization and visual analytics (visual data analysis). It also gives the participants required practical skills.

Course description and aims

(1) Understand the concepts of information visualization and visual analytics
(2) Acquire the data processing technique required for information visualization and visual analytics
(3) Understand various visualization methods employed in information visualization and visual analytics

Keywords

Information Visualization, Visual Analytics, Interactive Data Analysis

Competencies

Specialist skills
Intercultural skills
Communication skills
Critical thinking skills
Practical and/or problem-solving skills

Class flow

The course is structured by a lecture (LX#) followed by an exercise (EX#). During each exercise day, small groups of participants discuss case studies of the issues covered in the previous lecture. Programming assignment is given on each exercise day. A Python library called Plotly is used to create an interactive visualization system. The subject of the exercise will be an outbreak of an infectious disease in a hypothetical million city.

Course schedule/Objectives

	Course schedule	Objectives
Class 1	LX1: Overview of Information Visualization	Learn about the overview of information visualization
Class 2	LX2: What: Data and Data Abstraction	Learn about data and the concept of data abstraction
Class 3	EX1: Exercise on LX2	Exercise on LX2. Group discussion.
Class 4	LX3: Why: Task and Task Abstraction	Purpose of information visualization
Class 5	LX4: Visualization of Low-dimensional Quantitative Data	Visualization techniques for low-dimensional quantitative data
Class 6	EX2: Exercise on LX4	Exercise on LX4 (Plotly)
Class 7	LX5: Visualization of Networks and Trees	Visualization techniques for relationship (keywords: node-link diagram, inclusion).
Class 8	EX3: Exercise on LX5	Exercise on LX5 (NetworkX, Graphvis)
Class 9	LX6A: Visualization of Temporal Data (1/2)	Visualization techniques for data that change over time (scikit-learn, Plotly)
Class 10	LX6B: Visualization of Temporal Data (2/2)	Visualization techniques for data that change over time
Class 11	EX6: Exercise on LX6A and LX6B	Exercise on LX6A and LX6B (scikit-learn, Plotly)
Class 12	LX7: Visualization of Large-scale Data	Visualization techniques for large-scale data that has many attributes and many data items (Keywords: filtering, data abstraction, dimension reduction)
Class 13	EX5: Exercise on LX7	Exercise on LX7 (scikit-learn, Plotly)
Class 14	LX8: Visual Analytics Systems	Various visual analytics systems
Class 15	Wrap up	Wrap up

Study advice (preparation and review)

To enhance effective learning, students are encouraged to spend approximately 100 minutes preparing for class and another 100 minutes reviewing class content afterward (including assignments) for each class. They should do so by referring to textbooks and other course material.

Textbook(s)

none

Reference books, course materials, etc.

The following are recommended readings:

1. Tamara Munzner, "Visualization: Analysis & Design," CRC Press, 2015.

2. Natalia Andrienko and others, "Visual Analytics for Data Scientists," Springer, 2020.

Evaluation methods and criteria

- Exercise (5 times, 50 points)
- Report (Once, 50 points)

Related courses

MCS.T213 ： Introduction to Algorithms and Data Structures
MCS.T332 ： Data Analysis
MCS.T204 ： Introduction to Computer Science
CSC.T271 ： Data Structures and Algorithms
CSC.T253 ： Advanced Procedural Programming
CSC.T421 ： Human Computer Interaction
CSC.T272 ： Artificial Intelligence
CSC.T343 ： Databases

Prerequisites

- Communication ability: active contribution to group discussions.
- Programming ability equivalent to the senior undergraduate students of the school of computing.
- Google Account (needed for Google Colaboratory)

Other

I plan to use Python 3, Google Colaboratory, Pandas, Plotly, NetworkX, scikit-learn for exercise.