2.1 Master of Academic Degree in Mechanical Engineering

2.1.1 Research Fields

(1) Numerical Control and Precision Manufacturing

Characterized by complex surface numerical control manufacturing technology, the Master’s Academic Degree Program in Numerical Control and Precision Manufacturing mainly focuses on fundamental theoretical research conducted in the areas of digital collaborative design and manufacturing, ultra-precision manufacturing, precision measurement, error compensation and accuracy control, as well as intelligent numerical control systems and manufacturing.

(2) Laser Additive Manufacturing

With advanced laser processing technology as the core, the Master’s Academic Degree Program in Laser Additive Manufacturing focuses on the mechanisms and formation quality control theories of laser cleaning, laser shock strengthening, water-guided laser processing, laser additive manufacturing, and laser cladding remanufacturing.

(3) Mechanical Transmission Design and Control

The Master’s Academic Degree Program in Mechanical Transmission Design and Control primarily focuses on the design of mechanical system transmissions. In particular, it encompasses design theories and control technologies such as mechanical system dynamics, reliability design and evaluation, tribology and surface engineering, intelligent control of vehicles, biomimetic design, and optimization design.

(4) Vibration/Shock/Noise and Intelligent Operation and Maintenance

With the goal of ensuring smooth and efficient operation of complex electromechanical equipment, the Master’s Academic Degree Program in Vibration/Shock/Noise and Intelligent Operation and Maintenance focuses on theoretical research and technological development conducted in various fields such as vibration and noise detection and control, vibration utilization and control engineering, fault diagnosis, operation maintenance and life prediction, impact protection, and damage assessment.

(5) Intelligent Manufacturing and Systems Engineering

With artificial intelligence theory and technology as the key, the Master’s Academic Degree Program in Intelligent Manufacturing and Systems Engineering integrates with manufacturing and information technology, focusing on theories such as intelligent interconnection, green manufacturing, big data analysis, intelligent bionic, intelligent manufacturing systems, and machine vision.

2.1.2 Course Info

There are 13 core courses offered in this program. They are namely: Numerical Analysis, Optimization Method, Modern Control Theory, NC Machining Theory and Technology, Modern Manufacturing Theory and Technology, Metal Cutting Theory, Electromechanical Control System, Structural Optimization Design and Process of Additive Manufacturing, Vibration Mechanics, Structural Optimization Design and Process of Additive Manufacturing, Engineering Bionic Basis and Application, Intelligent Manufacturing Basis and Application, Advanced Detection Technology and Application.

2.2 Master of Professional Degree in Mechanical Engineering

2.2.1 Research Fields

(1) Numerical Control and Precision Manufacturing

Characterized by complex surface numerical control manufacturing technology, the Master’s Professional Degree Program in n Numerical Control and Precision Manufacturing focuses on applied research and technological innovation in digital collaborative design and manufacturing, ultra-precision manufacturing, precision measurement, error compensation and accuracy control, as well as intelligent numerical control systems and manufacturing.

(2) Laser Additive Manufacturing

With advanced laser processing technology as the core, the Master’s Professional Degree Program in Laser Additive Manufacturing focuses on the application of manufacturing technologies, processes, and equipment development, including laser cleaning, laser shock strengthening, water-guided laser processing, laser additive manufacturing, and laser cladding remanufacturing.

(3) Mechanical Transmission Design and Control

Focusing on the design of mechanical system transmissions, the Master’s Professional Degree Program in Mechanical Transmission Design and Control involves the application of design theories such as mechanical system dynamics, reliability design and evaluation, tribology and surface engineering, intelligent control of vehicles, bionic design, and optimization design, as well as the research and development of control technologies.

(4) Vibration/Shock/Noise and Intelligent Operation and Maintenance

With the goal of ensuring smooth and efficient operation of complex electromechanical equipment, the Master’s Professional Degree Program in Vibration/Shock/Noise and Intelligent Operation and Maintenance focuses on applied research and technological innovation in areas such as vibration and noise detection and control, vibration utilization and control engineering, fault diagnosis, operation maintenance and life prediction, impact protection, and damage assessment.

(5) Intelligent Manufacturing and Systems Engineering

The Master’s Professional Degree Program in Intelligent Manufacturing and Systems Engineering focuses on artificial intelligence theory and technology, deeply integrating manufacturing and information technology and primarily exploring the practice and application of technologies such as intelligent interconnection, green manufacturing, big data analysis, intelligent biomimetics, intelligent manufacturing systems, and machine vision.

2.2.2 Course Info

There are 11 core courses provided in this program. They are namely: Numerical Analysis, Precision Manufacturing Technology, Design and Analysis of CNC Equipment, Mechanical Manufacturing Modeling and Cutting Simulation Technology, Mechanical Dynamics, Control Theory and Application, Internet of Things and Embedded Technology, Case Analysis of Engineering Practice in Mechanical Manufacturing Field, Advanced Robot Technology, Modeling and Simulation Practice of New Energy Vehicles, Artificial Intelligence and digital creativity Practice.

2.3 Master of Professional Degree in Industrial Engineering and Management

2.3.1 Research Fields

(1) Green Intelligent Manufacturing and Smart Logistics

The Master’s Professional Degree Program in Green Intelligent Manufacturing and Smart Logistics is dedicated to promoting the green and intelligent transformation of the manufacturing industry, as well as the smart upgrading of logistics systems. The research focus of this program lies in how to reduce energy consumption, minimize environmental pollution, enhance production efficiency, and improve logistics efficiency through optimizing production processes, introducing efficient and energy-saving manufacturing techniques and equipment, and utilizing advanced information technology to achieve intelligent management of logistics networks, ultimately achieving sustainable development.

(2) Human Factors Engineering and Intelligent System Interaction

The Master’s Professional Degree Program in Human Factors Engineering and Intelligent System Interaction focuses on the optimization of interactions between humans and intelligent systems. By deeply studying human cognition, behavior, and decision-making processes, it aims to optimize human-computer interaction interfaces and enhance the usability and efficiency of intelligent systems. The research content of this program encompasses the development and application of interactive technologies such as intelligent speech recognition, natural language processing, and gesture recognition. Additionally, it involves continuously improving the interactive performance of intelligent systems through techniques such as data analysis and machine learning, making the intelligent systems more aligned with human needs and habits.

(3) Industrial Big Data and Intelligent Operation and Maintenance

The Master’s Professional Degree Program in Industrial Big Data and Intelligent Operation and Maintenance focuses on the mining of industrial big data and the development of intelligent operation and maintenance systems. The aim of the program is to equip students with the capacities of extracting valuable information and knowledge from vast amounts of industrial data, providing strong support for corporate decision-making. Simultaneously, by utilizing advanced information technology and artificial intelligence techniques, intelligent operation and maintenance systems are developed to achieve intelligent monitoring, fault prediction, and maintenance management of equipment. In doing so, it helps to reduce maintenance costs, enhances equipment reliability and service life, and ultimately creates greater value for enterprises.

2.3.2 Course Info

There are 13 core courses offered in this program. They are namely: Engineering Economics, Systems Engineering, Quality and Reliability Management, Operations and Management, Human Factors and Design, Supply Chain and Logistics Management, Intelligent Technology and Application, Leadership and Communication, Engineering System Modeling and Simulation, Lean Production, Intelligent Operation and Health Management, Complex System Reliability Engineering, Planning Theory and Scheduling Technology.