This course is for the abilities of understanding and analyzing network structures of
complex systems. We study from the viewpoints of network metrics, algorithms, models and
processes.
This course aims at the following three.
1) Study of basic concepts of network structures
2) Practice of network analysis with tools
3) Understand examples of applications of complex networks in various fields
The goal of this course is to obtain the following abilities.
1) Understanding basic metrics of network structures and computing them for given networks
2) Understanding basic algorithms of network structures
3) Understanding models for network generation and simulating simple ones
4) Understanding the processes on networks such as epidemics
Complex networks, Graph theory, Mathematical models
✔ Specialist skills | Intercultural skills | Communication skills | Critical thinking skills | ✔ Practical and/or problem-solving skills |
The lecture will be based on slides and other course material on an overview of complex networks and their analysis.
Course schedule | Required learning | |
---|---|---|
Class 1 | introduction | Report assignment (given during the lecture) |
Class 2 | tools for analyzing networks | Report assignment (given during the lecture) |
Class 3 | fundamentals (1) mathematics of networks | Report assignment (given during the lecture) |
Class 4 | fundamentals (2) measures and metrics | Report assignment (given during the lecture) |
Class 5 | fundamentals (3) the large-scale structure of networks | Report assignment (given during the lecture) |
Class 6 | network algorithms (1) representation | Report assignment (given during the lecture) |
Class 7 | network algorithms (2) matrix algorithms | Report assignment (given during the lecture) |
Class 8 | network algorithms (3) graph partitioning | Report assignment (given during the lecture) |
Class 9 | network models (1) random graphs | Report assignment (given during the lecture) |
Class 10 | network models (2) network formation | Report assignment (given during the lecture) |
Class 11 | network models (3) small-world model | Report assignment (given during the lecture) |
Class 12 | processes on networks (1) percolation | Report assignment (given during the lecture) |
Class 13 | processes on networks (2) epidemics | Report assignment (given during the lecture) |
Class 14 | machine learning and networks (network embedding, graph neural network) | Report assignment (given during the lecture) |
１． Networks: An Introduction, M. E. J. Newman, Oxford University Press
１． Networks: An Introduction, M. E. J. Newman, Oxford University Press
Students' course scores are based on reports (100%).
Linear algebra and calculus at the undergraduate level is required for taking this course.