After four years of systematic study, the students should complete the following graduation requirements.
1.Engineering knowledge : The ability to use mathematics, natural sciences, engineering fundamentals and expertise to solve the problem of automated complex engineering.
2.problem analysis : Can be applied to the basic principles of mathematics, natural sciences and engineering science, identify, express, and through the literature research and analysis of complex engineering problems in order to obtain effective conclusions.
3.Design / development solution : Designed for solutions that automate complex engineering problems, systems, units (components) or processes that meet specific needs are designed and can reflect innovation in the design process, taking into account social, health, safety, legal, cultural, and environmental factors.
4.Research : Can be based on scientific principles and the use of scientific methods to automate complex engineering issues, including design experiments, analysis and interpretation of data, and through information synthesis to be reasonable and effective conclusions.
5.Use modern tools : Develop, select and use appropriate technologies, resources, modern engineering tools and information technology tools for automating complex engineering issues, including the prediction and simulation of automated complex engineering problems and the ability to understand its limitations.
6.Engineering and society : Can be based on the relevant background knowledge of the project to conduct a reasonable analysis, evaluation of professional engineering practice and automation of complex engineering problem solutions on social, health, safety, legal and cultural impact, and understand the responsibility.
7.Environment and sustainable development：Able to understand and evaluate the impact of professional engineering practice on the complex and complex engineering problems on environmental and social sustainable development.
8.Professional norms：With humanities and social sciences, social responsibility, to understand and comply with engineering ethics and norms in engineering practice, fulfill their responsibilities.
9.Personal and team：Ability to take on individual, team members, and roles in a multidisciplinary team.
10.Communication：Able to communicate and communicate effectively with industry peers and the public on the issue of automated and complex engineering issues, including writing reports and design manuscripts, presenting statements, clearly expressing or responding to directives. And have a certain international perspective, to cross-cultural background to communicate and exchange.
11.Project management：Understand and master engineering management principles and economic decision-making methods, and can be applied in a multidisciplinary environment.
12.life-long learning：With independent learning and lifelong learning awareness, have the ability to continue to learn and adapt to development.