Building on the six departments and one program in the undergraduate Faculty of Engineering, the graduate school offers five courses: Mechanical Engineering; Electrical, Electronics, and Information Engineering; Applied Chemistry; Industrial Engineering and Management; and Architecture and Building Engineering. There is a large degree of collaboration across these fields, highlighted by activities such as the Kanagawa University Techno Festa. At the same time, the graduate school's researchers actively participate in academic conferences in Japan and worldwide, and engage in activities with state-of-theart research in mind. The school achieves many outstanding research results by actively pursuing interactions with other universities, research institutions, and corporations.
The Field of Mechanical Engineering of this course is broken up into five areas of Materials Engineering, Process Engineering, Thermofluid Engineering, Mechanical Systems, and Control Systems. It aims to train engineers who can engage in the research and development of highly competitive technologies in all fields of industry.
The Field of Electrical, Electronics, and Information Engineering aims to nurture creative research and development capabilities with highly developed international sensibilities, offering research and educational instruction in four areas: Electrical Power, Energy and Control Systems Engineering; Electronic Materials, Devices and Quantum Device Engineering; Advanced Ultrasonic and Electromagnetic Engineering; and Communication and Information Engineering. It also emphasizes individual research and participation in domestic and international academic conferences.
The Field of Applied Chemistry aims to nurture professionals capable of engaging in creative research and development in various aspects of applied chemistry, offering research and education instruction in six areas: Molecular Property Engineering, Energy Conversion Chemistry, Functional Polymeric Materials, Biomolecular Engineering, Inorganic Materials and Analytical Chemistry, and Resource Materials Chemistry.
The Field of Information Systems Creation aims to nurture the ability to find, analyze, solve and evaluate problems from a systems approach in the 3 areas of Mathematical Information Systems Engineering, Information Systems Engineering and Management Systems Engineering.
The Field of Industrial Engineering and Management aims to train specialists capable of solving problems from management perspectives and systems approaches. It provides research and education instruction in four interdisciplinary research fields centered on industrial engineering and management: Manufacturing Systems Engineering, Mathematical Data Systems Engineering, Information Systems Engineering, and Management and Administrative Systems Engineering.
The Field of Applied Physics aims to instill in students the insight to isolate the essence of various phenomena, which form the basis of contemporary physics, and the fundamental expertise to be able to Providing research and educational guidance in the areas of Space Observation and Elementary Particle Experimentation and Physics of Physical Properties, Mathematics and Calculation.
The Field of Bio and Life Engineering aims to instill in students the ability to instill in students the ability to find and solve problems in current technology through research activities based on a wide range of knowledge, providing research and educational guidance in the areas of Biofunctional Chemistry, Robot Engineering and Intelligent Infomatics.
The course offers research and education instruction to train specialists who can engage in urban planning with appreciation of history and people and urban revitalization that harmonizes buildings and landscapes. The course does so in six areas: Architecture and Environmental Planning, Architecture and Equipment for the Urban Environment, Architectural Engineering for Urban Disaster Prevention, Architectural and Structural Design Engineering, Architecture and Urban Culture, and Architecture and Urban Design.