Doctoral CourseDivision of Electrical Engineering and Computer Science

• List of faculty staff and research

Admission Policy (Doctoral Programs)

　Electronic and information engineering and the technologies that utilize these are developing rapidly as the basis of super-smart societies. In line with this latest trend, the demand for advanced professionals possessing the ability to keep up with rapid technological progress and create innovative science and technologies in these areas continues to grow.

　The educational and research goals of this course are to provide an environment where students can master systematic knowledge of electrical and electronic engineering (electric energy, electronic devices, nanotechnology, etc.), information and communication engineering (AI, IoT, security, big data analysis, etc.), bioinformatics, and the interdisciplinary studies of these fields. We welcome highly motivated applicants who aim to become globally competent researchers or engineers, able to keep up with rapid technological progress and create innovative technologies.

Basic Policy for Selection

　During the screening process, we conduct a thorough evaluation based on submitted documents and oral examination (presentation of master's thesis, or a report on research experience and results).

Desirable Abilities for Admission

　Wide-ranging foundational knowledge covering the fields of electrical and electronic engineering and information and communication engineering. Basic research and development ability. Advanced expertise in electrical and electronic engineering, information and communication engineering, and bioinformatics.

Curriculum Policy (Doctoral programs)

　The curriculum of the Division of Electrical Engineering and Computer Science is organized to foster advanced professionals who have expert knowledge of state-of-the-art technologies in electrical and electronic engineering, information and communication engineering, and bioinformatics. Furthermore, through research activities, students acquire high expertise in a specific field, adaptability to technological innovations, global awareness, and communication skills.

Learning achievements

1. Students acquire advanced expertise and extensive insight in electronic engineering, information and communication engineering, and bioinformatics.
2. Students develop the ability to lead R&D projects in universities, research institutes, or industries.
3. Students develop R&D capability with high ethical standards for the protection of the environment and sustainable development.
4. Students acquire the global awareness, presentation skills, and communication skills to work on a global stage.

Diploma Policy (Doctoral programs)

　Students of Electrical Engineering and Computer Science become globally competent researchers or engineers possessing expert knowledge of the most advanced electrical and electronic engineering, information and communication engineering, and bioinformatics. To be awarded with a doctoral degree, students are required to complete the units of the doctoral program, to pass a review of the final dissertation, and to achieve the following outcomes:

1. Advanced expertise and extensive insight in electrical and electronic engineering, information and communication engineering, and bioinformatics.
2. Logical thinking skills to identify academic and social issues.
3. Initiative and independence to lead technology development.
4. R&D capabilities with high ethical standards for sustainable development.
5. Global awareness, presentation skills, and communication skills.