This course provides students with a wide range of skills of basic mathematical science that is necessary to system design and control.
At the end of this course, students will be able to understand the basics of various mechanisms behind systems,
And furthermore, lay the groundwork for the expertize acquisition.
Machine Learning, Artificial Intelligence, Complex Systems, Intelligent Systems, Intelligent Robots
✔ Specialist skills | Intercultural skills | Communication skills | ✔ Critical thinking skills | ✔ Practical and/or problem-solving skills |
Dr Hasegawa will give lectures in the first half of the academic year, after that, some supervisors who are conducting advanced research in the field of computational intelligence and systems science will give lectures about systems and mathematical science form diverse perspectives.
Course schedule | Required learning | |
---|---|---|
Class 1 | Learner and learning methods | Write reports about learning machines. |
Class 2 | Basics of the Bayes theory | Write reports about bayes theory. |
Class 3 | Probabilistic models and discriminant functions | Write reports about mathematical models. |
Class 4 | Basics of neural networks | Write reports about neural networks. |
Class 5 | Time series data analysis | Data analysis/analyses, practice |
Class 6 | Image data analysis | Image processing, practice |
Class 7 | Multi-modal data analysis | Write reports about intelligent robots. |
Class 8 | Agent systems | Homework specified by the instructor. |
Class 9 | Knowledge systems | Homework specified by the instructor. |
Class 10 | Complex networks | Homework specified by the instructor. |
Class 11 | Intelligent interactive systems | Homework specified by the instructor. |
Class 12 | Self organizing systems | Homework specified by the instructor. |
Class 13 | Evolutionary systems | Homework specified by the instructor. |
Class 14 | System biology | Homework specified by the instructor. |
Class 15 | Molecular robotics | Homework specified by the instructor. |
Text book specified by the instructor.
All materials used in class can be found on OCW-i.
Students' course scores are based on homework and final exams.
No prerequisites.
Lectures in second-half are subject to variation.