Welcome to the School of Automation of Wuhan University of Technology!
The Robotics Engineering Program at Wuhan University of Technology aims to cultivate excellent innovative talents focused on robots as the primary research and application objects. Graduates will possess the ability to utilize existing robotic systems, the competence to develop emerging robots, and the potential to explore future robotic technologies in the fields of robotics engineering and related industries.
Expected Goals Within 5 Years of Graduation:
Possess humanistic literacy, sound character, social responsibility, and team spirit.
Master fundamental knowledge of mathematics and physics, and comprehensively grasp specialized knowledge in mechanics, electrical engineering, control systems, and algorithms.
Have technical capabilities in advanced robotic system analysis, hardware-software design, and application development.
Demonstrate innovative and entrepreneurial awareness, project management skills, and a spirit of lifelong learning.
Rapidly grow into senior professionals in robotics engineering and related fields.
Graduation Requirements for Robotics Engineering:
Engineering Knowledge: Acquire mathematical, natural scientific, engineering foundational, and professional knowledge required for robotics engineering, and be able to synthesize and apply these knowledge to solve complex engineering problems in robotics and related fields.
Problem Analysis: Use fundamental principles of mathematics, natural sciences, and engineering sciences related to robotics engineering to identify, formulate, and analyze complex engineering problems in robotics with the aid of literature, grasp object characteristics, and derive valid conclusions.
Design/Development of Solutions: Design solutions for complex engineering problems, including mechanical structures, electrical drives, control systems, software programs, intelligent algorithms, and overall robotic system integration in robotics engineering. Reflect innovative consciousness in the design process and consider social, health, safety, legal, cultural, and environmental factors.
Research: Conduct research on complex engineering problems in robotics and related fields based on scientific principles and methods, including innovative experimental design, modeling analysis, data processing, and result discussion, to ultimately obtain reasonable and effective methods or solutions.
Use of Modern Tools: Develop, select, and apply appropriate technologies, resources, modern engineering tools, and information technology tools for complex engineering problems in robotics, while understanding their limitations.
Engineering and Society: Based on background knowledge in robotics engineering, reasonably analyze and evaluate the impacts of engineering research and practice in robotics on society, health, safety, law, and culture, and understand the responsibilities to be undertaken.
Environment and Sustainable Development: Understand and evaluate the impacts of engineering practices in robotics on the environment and social sustainable development.
Professional Ethics: Have humanistic literacy and social responsibility, and understand and abide by professional ethics and norms in robotic engineering practices, fulfilling corresponding responsibilities.
Individual and Teamwork: Assume roles as an individual, team member, and leader in multidisciplinary teams.
Communication: Effectively communicate and exchange complex engineering problems with industry peers and the public, including writing reports and design documents, making presentations, and clearly expressing ideas or responding to instructions.
Project Management: Understand and master engineering management principles and economic decision-making methods and apply them in multidisciplinary environments.
Lifelong Learning: Have the awareness of autonomous learning and lifelong learning, and the ability to continuously learn and adapt to development.