Welcome to the School of Automation of Wuhan University of Technology!
The Electrical Engineering and Automation Program at Wuhan University of Technology aims to cultivate high-caliber, interdisciplinary senior engineering and management talents with:
Foundations in natural sciences and humanities/social sciences,
Mastery of basic theories in electrical engineering, electronics, control systems, and computer applications,
Specialized knowledge in power systems, motors and electrical appliances, power electronics, etc.,
A spirit of innovation, awareness of disciplinary frontiers,
A focus on the university’s characteristic industries: building materials & construction, transportation, and automotive,
Competence to serve in electrical engineering-related fields such as power systems, integrated building materials/construction, transportation, and automotive sectors,
Capabilities in research & development, engineering design, manufacturing, system operation, project management, and educational research.
Expected Outcomes for Graduates within 5 Years:
Humanistic Cultivation:
Strong engineering ethics, personal integrity, and international perspective.
Compliance with laws and regulations, social responsibility, communication skills, teamwork spirit, safety and environmental awareness, and understanding of the societal impacts of electrical engineering.
Professional Knowledge:
Solid foundation in natural sciences and specialized knowledge in power systems & automation, motor control, power electronics, etc.
Ability to synthesize resources and modern tools to research complex electrical engineering systems.
Engineering Competency:
Analyze and address complex electrical engineering problems using integrated professional knowledge.
Propose design and development solutions for real-world projects and engage in production operation and technical management in interdisciplinary contexts.
Lifelong Learning:
Awareness of sustainable development, autonomous learning, and adaptability to technological changes.
Evaluate the environmental and social impacts of electrical engineering practices on sustainable development.
Graduation Requirements:
Engineering Knowledge: Apply mathematics, natural sciences, engineering fundamentals, and specialized knowledge to solve complex engineering problems in electrical engineering and automation.
Problem Analysis: Use principles of mathematics, natural sciences, and engineering to identify, formulate, and analyze complex problems through literature research, deriving valid conclusions.
Design/Development of Solutions: Design innovative solutions for complex engineering problems, considering social, health, safety, legal, cultural, and environmental factors.
Research: Conduct scientific research on complex problems, including experimental design, data analysis, and synthesis of conclusions.
Modern Tool Usage: Develop and apply appropriate technical tools and IT solutions for complex problems, understanding their limitations.
Engineering and Society: Evaluate the societal, health, safety, legal, and cultural impacts of engineering practices and solutions, recognizing professional responsibilities.
Environment and Sustainability: Understand and assess the environmental and social sustainability impacts of engineering practices.
Professional Ethics: Uphold humanistic literacy, social responsibility, and engineering ethics in professional practice.
Individual and Teamwork: Contribute as a team member or leader in multidisciplinary environments.
Communication: Effectively communicate complex engineering issues with peers and the public, including cross-cultural communication.
Project Management: Apply engineering management principles and economic decision-making in multidisciplinary contexts.
Lifelong Learning: Demonstrate autonomous learning ability and adaptability to technological advancements.