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College Of Engineering Seoul National University

Convergence Major Scholarship

Research Areas in Detail

In order to drive the emergence and development of smart cities, it is necessary to train professionals and field experts who can integrate traditional urban design-based discipline with cutting-edge technology. This can be realized through advanced education based on various interdisciplinary applications.

  • Advanced Smart City Convergence courses that require carrying out diverse projects conducted by international organizations, government, local governments, public institutions, enterprises, and universities are newly set-up or reorganized in the major curriculum.
  • A wide range of industry-academic relationship through global cooperative activities of the related institutions are provided for the participants. This is carried out through utilizing new technology test-bed and research center set up in Siheung Smart Campus, which aims to provide smart city global convergence start-up education.
Research Areas in Detail

Research Areas in Detail: In the convergence major of ‘Smart Ocean Mobility’, we are recruiting global talented students who possess not only theoretical knowledge through the completion of essential subjects in various disciplines such as electrical engineering, mechanical engineering, chemical engineering, and industrial engineering, but also practical skills in applying artificial intelligence technology to field-specific issues such as smart (autonomous) ships, eco-friendly energy, and smart production.

Research Areas in Detail

Development of practical R&D talent with global competitiveness by establishing a system integrateddesign curriculum and a new concept educational infrastructure

  • 1

    It realizes the development of high-quality human resources through the establishment of a graduate school convergence course that are internationally competitive and specialized in the design of unmanned vehicles by incorporating multidisciplinary thinking and insights into unmanned autonomous control and hyper-connected communication into the existing element technology-oriented knowledge base.

    • A graduate course for convergence and integrated education of land, sea, and public transportation is newly established to operate master's and doctorate programs, and to promote development into a certification course for unmanned transportation development capabilities
    • It has established itself as a central institution for unmanned mobile education by providing and upgrading the same level of education online and offline through credit exchange agreements with universities across the country

  • 2

    During the degree course, it operates subjects that design, production, performance test, evaluation, and demonstration based on big data and optimization to cultivate practical talents with theory and development experience that lead the industrial field after graduation.

    • Developing the ability to play a role in the industrial field immediately upon graduation by operating the entire development course of the unmanned mobility body in the degree course
    • Development of challenge-type mission-solving skills by operating the program to participate in the challenge competition as an essential subject and supporting commercialization and start-up support for winning works

  • 3

    The convergence process serves as a hub for national universities and businesses for the education and development of unmanned mobility by establishing an educational infrastructure for elemental analysis technology and optimization design and enabling the entire process of knowledge-based decision-making design of unmanned mobility in One Spot.

    • Establishment of a knowledge-based decision-making design platform that uses system analysis algorithms and data for composite system analysis over the entire life cycle
    • Using the core technologies of the 4th industrial revolution such as virtual reality and big data, next-generation virtual and real-world performance evaluation programs are developed and operated step by step
Research Areas in Detail

This Integrated Major in Sustainable High-Level Radioactive Waste Management (Integrated Major) aims to foster future leaders who will approach high-level waste in a more environmental-friendly and sustainable way.

Being multidisciplinary in nature, the Integrated Major introduces various technical options across all stages of high-level waste management from its generation, transport, storage, treatment, recycling, and disposal; as well as selecting a high-level waste disposal site, short- and long-term safety improvement for high-level waste, communication concerning the radiation impact of high-level waste, and the establishment and evaluation of multi-disciplinary national policy scenarios for high-level waste management.

It also provides students from different schools, including Engineering and Social Sciences, with the opportunity to identify various sources of conflict, to enhance their insight into a more effective way for conflict management and policy making, and to develop their own creative policy for better conflict management.

The Integrated Major ultimately aims to equip students with not only the technical knowledge required to understand high-level waste and its treatment, but also with a variety of skills such as communication skills, safety regulation, conflict management skills, and decision-making skills.