厕拍

Education
  • Majors
  • Study programmes
  • Subject

Intelligent Manufacturing Engineering(智能制造工程)

作者:   已浏览:31次 更新日期:2024-12-09

Ningbo and the Yangtze River Delta region are key drivers of manufacturing development and pioneers in intelligent manufacturing. The region's industrial value-added output accounts for over a quarter of the national total, leading the country in sectors such as the information economy, digital economy, intelligent economy, the "Four New" economy (new technologies, new industries, new business forms, and new models), and the integration of information technology and industrialization. Traditional manufacturing industries in the region are undergoing a transformation toward intelligent manufacturing, with deep collaborations emerging in areas such as new energy vehicles, integrated circuits, industrial internet, smart manufacturing equipment, and smart factory construction. This transformation has established a robust collaboration and development framework, creating a particularly urgent demand for skilled professionals in intelligent manufacturing.

Ningbo University’s Intelligent Manufacturing Engineering program was established to address the pressing need for advanced talent in intelligent manufacturing across Ningbo, Zhejiang, and the Yangtze River Delta region. Approved in 2020, the program is aligned with local economic and social development goals and focuses on cultivating professionals to meet the evolving needs of the industry. The university has already established partnership agreements for this discipline with leading companies such as Zhejiang CRRC Electric Vehicle Co., Ltd., Ningbo CRRC New Energy Technology Co., Ltd., and Ningbo Leibo Intelligent Equipment Co., Ltd. These collaborations reflect the strong and ongoing demand for intelligent manufacturing engineering talent from a wide range of enterprises in the region.

Program Objectives

This program is designed to meet the needs of local industries and support the transformation and upgrading of intelligent manufacturing in the region. It aims to cultivate well-rounded professionals (in moral, intellectual, physical, aesthetic, and labor aspects) who not only possess a strong foundation in mathematics and natural sciences but also have interdisciplinary expertise in fields such as mechanical engineering, control, computer science, and management. Graduates will be equipped with solid professional ethics, a humanistic spirit, a strong sense of social responsibility, and a commitment to sustainable development, along with a global perspective. The program also emphasizes innovation and practical skills, empowering graduates to identify, analyze, and solve complex engineering challenges in intelligent manufacturing. Graduates will be prepared for high-level, multifaceted roles in research, integrated development, planning, operational management, and consulting services, equipping them to drive innovation and entrepreneurship in intelligent manufacturing systems and products.

(1) Graduates will demonstrate high moral integrity, professional ethics, a strong sense of social responsibility, and an awareness of the humanities and social sciences. They will strictly adhere to professional standards in engineering practices, fulfill their responsibilities, and be dedicated to serving society.

(2) Graduates will possess a comprehensive understanding of both foundational theories and cutting-edge knowledge in intelligent manufacturing, along with strong practical engineering skills. They will be proficient in applying scientific methods and utilizing modern tools to engage in research, integrated development, planning, analysis, operational management, and consulting within intelligent manufacturing systems and equipment.

(3) Graduates will cultivate a strong innovative mindset, systems thinking, and a sustainable development perspective. They will consider the impacts on society, health, safety, law, environment, and economics when solving complex engineering problems in intelligent manufacturing, and will emerge as key technical or managerial professionals in their fields.

(4) Graduates will possess excellent teamwork skills, demonstrate strong international awareness, and be adept at communication, collaboration, organization, and management in cross-cultural and multidisciplinary contexts.

(5) Graduates will have a strong commitment to continuous learning and self-improvement. They will be capable of rapidly adapting to new developments in intelligent manufacturing technologies, career progression, and job changes, ensuring long-term success in a dynamic professional environment.

Graduation Requirements

This program is designed to provide students with foundational knowledge and practical skills in intelligent manufacturing, with a particular focus on engineering applications and hands-on training. Upon completing their studies, students will have developed well-rounded scientific, engineering, and cultural literacy. The following graduation requirements must be fulfilled to successfully complete the program:

1. Engineering Knowledge: Graduates will acquire a solid understanding of mathematics, natural sciences, engineering fundamentals, and engineering expertise. They will be able to apply this knowledge to address complex engineering challenges in the field of intelligent manufacturing.

2. Problem Analysis: Graduates will be proficient in applying principles of mathematics, natural sciences, and engineering sciences to identify, articulate, and analyze complex engineering problems. This includes conducting thorough literature research to derive valid and effective conclusions.

3. Design and Development of Solutions: Graduates will have the ability to design effective solutions for complex engineering problems in the field of intelligent manufacturing. This includes the development of intelligent manufacturing equipment, production lines, smart factories and manufacturing process systems tailored to specific needs. Their designs will demonstrate innovative thinking and take into account factors such as societal needs, health, safety, legal and cultural considerations, and environmental impact.

4. Research Skills: Graduates will be adept at conducting research on complex engineering problems in the field of intelligent manufacturing, employing scientific principles and methodologies. They will design experiments, analyze and interpret data, and synthesize information to arrive at logical and effective conclusions.

5. Utilization of Modern Tools: Graduates will be capable of developing, selecting, and employing appropriate technologies, resources, modern engineering tools, and information technology solutions to tackle complex engineering problems in the field of intelligent manufacturing. They will also be able to conduct predictions and simulations while understanding the limitations of these tools.

6. Engineering and Society: Graduates will be able to leverage their engineering knowledge to critically analyze and evaluate the societal, health, safety, legal, and cultural impacts of engineering practices and solutions. They will also understand and acknowledge the responsibilities they must assume in these contexts.

7. Environment and Sustainable Development: Graduates will have the ability to understand and evaluate the environmental and societal sustainability impacts of the practices addressing complex problems in intelligent manufacturing.

8. Professional Ethics: Graduates will possess strong humanistic and social science literacy, a deep sense of social responsibility, and a thorough understanding of engineering ethics and professional standards. They will adhere to these principles throughout their engineering practice.

9. Individual and Team Roles: Graduates will be capable of taking on individual, team member, and leadership roles within multidisciplinary teams.

10. Communication: Graduates will be proficient in communicating complex engineering issues clearly and effectively with industry peers and the public. This includes writing reports and design documents, making presentations, articulating instructions or responses, and demonstrating a global perspective for effective cross-cultural communication.

11. Project Management: Graduates will be equipped with a solid understanding of engineering management principles and economic decision-making methods, and will be able to apply them effectively in multidisciplinary settings.

12. Lifelong Learning: Graduates will have a strong commitment to self-directed and lifelong learning, with the ability to continuously acquire new knowledge and adapt to evolving professional demands.

Core courses

  1. 机械设计基础 - Fundamentals of Mechanical Design

  2. 机械制造技术基础 - Fundamentals of Manufacturing Technology

  3. 控制工程基础 - Fundamentals of Control Engineering

  4. 智能传感与测试技术 - Intelligent Sensing and Testing Technology

  5. 智能生产运作管理 - Intelligent Production Operations Management

  6. 人工智能基础 - Fundamentals of Artificial Intelligence

  7. 工业机器人 - Industrial Robotics

  8. 工业物联网 - Industrial Internet of Things (IIoT)

  9. 生产系统建模与仿真 - Modeling and Simulation of Production Systems


Majors
学院厕拍 - 新英文版 - 正文
Intelligent Manufacturing Engineering(智能制造工程)
作者: 已浏览:次 更新日期:2024-12-09

Ningbo and the Yangtze River Delta region are key drivers of manufacturing development and pioneers in intelligent manufacturing. The region's industrial value-added output accounts for over a quarter of the national total, leading the country in sectors such as the information economy, digital economy, intelligent economy, the "Four New" economy (new technologies, new industries, new business forms, and new models), and the integration of information technology and industrialization. Traditional manufacturing industries in the region are undergoing a transformation toward intelligent manufacturing, with deep collaborations emerging in areas such as new energy vehicles, integrated circuits, industrial internet, smart manufacturing equipment, and smart factory construction. This transformation has established a robust collaboration and development framework, creating a particularly urgent demand for skilled professionals in intelligent manufacturing.

Ningbo University’s Intelligent Manufacturing Engineering program was established to address the pressing need for advanced talent in intelligent manufacturing across Ningbo, Zhejiang, and the Yangtze River Delta region. Approved in 2020, the program is aligned with local economic and social development goals and focuses on cultivating professionals to meet the evolving needs of the industry. The university has already established partnership agreements for this discipline with leading companies such as Zhejiang CRRC Electric Vehicle Co., Ltd., Ningbo CRRC New Energy Technology Co., Ltd., and Ningbo Leibo Intelligent Equipment Co., Ltd. These collaborations reflect the strong and ongoing demand for intelligent manufacturing engineering talent from a wide range of enterprises in the region.

Program Objectives

This program is designed to meet the needs of local industries and support the transformation and upgrading of intelligent manufacturing in the region. It aims to cultivate well-rounded professionals (in moral, intellectual, physical, aesthetic, and labor aspects) who not only possess a strong foundation in mathematics and natural sciences but also have interdisciplinary expertise in fields such as mechanical engineering, control, computer science, and management. Graduates will be equipped with solid professional ethics, a humanistic spirit, a strong sense of social responsibility, and a commitment to sustainable development, along with a global perspective. The program also emphasizes innovation and practical skills, empowering graduates to identify, analyze, and solve complex engineering challenges in intelligent manufacturing. Graduates will be prepared for high-level, multifaceted roles in research, integrated development, planning, operational management, and consulting services, equipping them to drive innovation and entrepreneurship in intelligent manufacturing systems and products.

(1) Graduates will demonstrate high moral integrity, professional ethics, a strong sense of social responsibility, and an awareness of the humanities and social sciences. They will strictly adhere to professional standards in engineering practices, fulfill their responsibilities, and be dedicated to serving society.

(2) Graduates will possess a comprehensive understanding of both foundational theories and cutting-edge knowledge in intelligent manufacturing, along with strong practical engineering skills. They will be proficient in applying scientific methods and utilizing modern tools to engage in research, integrated development, planning, analysis, operational management, and consulting within intelligent manufacturing systems and equipment.

(3) Graduates will cultivate a strong innovative mindset, systems thinking, and a sustainable development perspective. They will consider the impacts on society, health, safety, law, environment, and economics when solving complex engineering problems in intelligent manufacturing, and will emerge as key technical or managerial professionals in their fields.

(4) Graduates will possess excellent teamwork skills, demonstrate strong international awareness, and be adept at communication, collaboration, organization, and management in cross-cultural and multidisciplinary contexts.

(5) Graduates will have a strong commitment to continuous learning and self-improvement. They will be capable of rapidly adapting to new developments in intelligent manufacturing technologies, career progression, and job changes, ensuring long-term success in a dynamic professional environment.

Graduation Requirements

This program is designed to provide students with foundational knowledge and practical skills in intelligent manufacturing, with a particular focus on engineering applications and hands-on training. Upon completing their studies, students will have developed well-rounded scientific, engineering, and cultural literacy. The following graduation requirements must be fulfilled to successfully complete the program:

1. Engineering Knowledge: Graduates will acquire a solid understanding of mathematics, natural sciences, engineering fundamentals, and engineering expertise. They will be able to apply this knowledge to address complex engineering challenges in the field of intelligent manufacturing.

2. Problem Analysis: Graduates will be proficient in applying principles of mathematics, natural sciences, and engineering sciences to identify, articulate, and analyze complex engineering problems. This includes conducting thorough literature research to derive valid and effective conclusions.

3. Design and Development of Solutions: Graduates will have the ability to design effective solutions for complex engineering problems in the field of intelligent manufacturing. This includes the development of intelligent manufacturing equipment, production lines, smart factories and manufacturing process systems tailored to specific needs. Their designs will demonstrate innovative thinking and take into account factors such as societal needs, health, safety, legal and cultural considerations, and environmental impact.

4. Research Skills: Graduates will be adept at conducting research on complex engineering problems in the field of intelligent manufacturing, employing scientific principles and methodologies. They will design experiments, analyze and interpret data, and synthesize information to arrive at logical and effective conclusions.

5. Utilization of Modern Tools: Graduates will be capable of developing, selecting, and employing appropriate technologies, resources, modern engineering tools, and information technology solutions to tackle complex engineering problems in the field of intelligent manufacturing. They will also be able to conduct predictions and simulations while understanding the limitations of these tools.

6. Engineering and Society: Graduates will be able to leverage their engineering knowledge to critically analyze and evaluate the societal, health, safety, legal, and cultural impacts of engineering practices and solutions. They will also understand and acknowledge the responsibilities they must assume in these contexts.

7. Environment and Sustainable Development: Graduates will have the ability to understand and evaluate the environmental and societal sustainability impacts of the practices addressing complex problems in intelligent manufacturing.

8. Professional Ethics: Graduates will possess strong humanistic and social science literacy, a deep sense of social responsibility, and a thorough understanding of engineering ethics and professional standards. They will adhere to these principles throughout their engineering practice.

9. Individual and Team Roles: Graduates will be capable of taking on individual, team member, and leadership roles within multidisciplinary teams.

10. Communication: Graduates will be proficient in communicating complex engineering issues clearly and effectively with industry peers and the public. This includes writing reports and design documents, making presentations, articulating instructions or responses, and demonstrating a global perspective for effective cross-cultural communication.

11. Project Management: Graduates will be equipped with a solid understanding of engineering management principles and economic decision-making methods, and will be able to apply them effectively in multidisciplinary settings.

12. Lifelong Learning: Graduates will have a strong commitment to self-directed and lifelong learning, with the ability to continuously acquire new knowledge and adapt to evolving professional demands.

Core courses

  1. 机械设计基础 - Fundamentals of Mechanical Design

  2. 机械制造技术基础 - Fundamentals of Manufacturing Technology

  3. 控制工程基础 - Fundamentals of Control Engineering

  4. 智能传感与测试技术 - Intelligent Sensing and Testing Technology

  5. 智能生产运作管理 - Intelligent Production Operations Management

  6. 人工智能基础 - Fundamentals of Artificial Intelligence

  7. 工业机器人 - Industrial Robotics

  8. 工业物联网 - Industrial Internet of Things (IIoT)

  9. 生产系统建模与仿真 - Modeling and Simulation of Production Systems


Majors