Industrial Engineering Scholarship
Nanjing University of Science and Technology
Available Scholarships
Program Information
  • Starting Date:Sep 01,2024
  • Degree:Bachelor
  • Duration: 4 Years
  • Teaching Language: English
  • Tuition Fee: RMB 19,800 Per Year
Entry Requirements

1. Non-Chinese citizen

2. Physical and moral health

3. Age limit: 18-28

Program Highlights

Program Description

I. Objectives

The major aims at cultivating comprehensive engineers and technical talents with basic theory and knowledge of industrial engineering to engage in the job of planning, design, management, control, consultation, evaluation, optimization and innovation for production and service system.

II. Requirements 

Students are expected to acquire the basic theory and knowledge of manufacturing information, production management, logistics and supply chain management, complex life cycle production operations management, control and cost analysis of products and systems to engage in the production, operation and service management system analysis, planning, design, management & control, quality control, evaluation and standardization.

Graduates should obtain knowledge and abilities as follows:

1. Engineering knowledge: Have the ability to apply mathematics, science, engineering fundamentals, and expertise to solve complex engineering problems.

2. Problem Analysis: Have the ability to apply the basic principles of mathematics, natural sciences and engineering science to identify, express and analyze complicated engineering problems with literature research so as to obtain effective conclusions.

3. Design/Development Solutions: Have the ability to design solutions to complex engineering problems, design production systems, units (components) or processes to meet specific needs and to be innovative in design, taking into account social, health, safety, legal, cultural and environmental factors.

4. Research: Have the ability to research on complex engineering problems based on scientific principles and scientific methods, including experiments design, data analysis and interpretations, and information synthesis for reasonable and effective conclusions.

5. Use of modern tools: Have the ability to develop, select and use appropriate technologies, resources, modern engineering tools and information technology tools for complex engineering problems, including prediction and simulation of complex engineering problems, and to understand their limitations.

6. Engineering and Society: Have the ability to conduct a reasonable analysis based on the background knowledge of mechanical engineering and industrial engineering to evaluate the impacts of professional engineering practices and complex engineering problems solutions on society, health, safety, law and culture and to understand the responsibilities to be undertaken.

7. Environmental and sustainable development: Have the ability to understand and evaluate the impact of engineering practices of complex engineering issues on environmental and social sustainability.

8. Professional norms: Have a good quality of humanities and social sciences, a strong sense of social responsibility, and the ability to understand and abide engineering ethics and norms as well as to fulfill their responsibilities in engineering practice. 

9. Individuals and teams: Have the ability to take on the role of individual, team member, and principal in a multidisciplinary team.

10. Communication: Have the ability to communicate and exchange ideas with industry peers and the general public on complex engineering issues, including writing reports and designing drafts, making presentations, and expressing or responding to directives, and the ability of cross-cultural communication and exchange with international perspectives.

11. Project management: Have the ability to understand and master the principles of project management and economic decision-making, and apply them in a multi-disciplinary environment.

12. Lifelong learning: Have the awareness self-learning and lifelong learning, and the ability to continuously learn and adapt to development.

III. Core courses

Operations Research, Probability and Statistics, Microeconomics, Business Management, Fundamental Industrial Engineering, Facilities Planning and Logistics Analysis, Human Factors Engineering, Production Management and Control, Quality Management and Reliability, Product Development Project Management, Cost Management, Enterprise Informatization, etc.

IV   . Components of the 4-year Curriculum

Category

Credits

1. General Education Courses

22 

2. Discipline Education Courses

38

3. Specialized Courses

81

Total

141

V. Table of Teaching Plan for Major of Industrial Engineering



Faqs