Master of Engineering in Mechanical Engineering

By Wed, 19 Mar 2014 GMT


Pathway A: Numerical Control and Equipment

It aims at key technology and equipment development of numerical control technology, including advanced numerical control machine tools, development of high performance components, innovative design, optimal design, performance evaluation, testing evaluation, advanced system of numerical control, etc.

Pathway B: Equipment Engineering and Intelligence Repairing

This pathway focuses on combination of practice and theory, concerning the actual demand of enterprises. It aims at studies on technology of electromechanical equipments, including modern engineering technology, status testing and diagnosing, scientific maintenance, energy-saving and emission reduction of equipments, quality control, etc.

Pathway C: Integrated Measuring and Testing in Optical Electromechanical Engineering and Application

This pathway addresses modern measuring and testing technologies in optical electromechanical engineering and development of corresponding system and equipments. It offers the research in the area of modern measuring and testing methods in optical electromechanical system, integration of measuring and testing technology, distance on-line measuring and testing technology, intelligence instruments and virtual instruments, etc. It aims at digitization, informatization, automation, intelligentization, integration of online optical electromechanical system.

Pathway D: Application and Technology of Unmanned Vehicles

This pathway covers the studies on technology and application related to unmanned vehicles, including spatial mechanism, kinematics, dynamics, measuring and testing technology, control technology, etc. It offers exploration on structural design of unmanned vehicles, kinematics and dynamics analysis, a variety of information detection and signal processing, motion planning of unmanned vehicles, motion planning with kinematics and dynamics, intelligence control technology, etc. In terms of unmanned vehicles, this pathway refers to special unmanned vehicles, industry unmanned vehicles, mobile robots, and parallel mechanism robots.

Pathway E: Design and Application of Mechanical System

This pathway adopts advanced theory, technology and method in designing principles and structure of electromechanical equipments. It covers evaluation of equipment performance, including strength analysis of equipment structure, stress monitoring technology, analysis and control of mechanical vibration, mechanical dynamics, identification and control of mechanical noise source, mechanical fault diagnosis and prediction, etc.

Pathway F: Dynamics and Control Technology of Vehicle System

This pathway aims at studies on traditional vehicles and new energy vehicles in the respect of characteristics of vehicle system dynamics, vehicle whole modeling, analysis and control of simulation evaluation, optimal matching of whole vehicle and components, electric driven technology and BUS technology, and NVH control technology.

Pathway G: Design and Manufacturing of Modern Vehicles

It explores modern design method and advanced manufacturing technology of vehicles and key components, including lightweight vehicles based on CAE (theories and methods), digitization of automotive production, digital modeling technology of whole vehicle and components, analysis and simulation of digitized products, reverse engineering theory and technology, integration of CAD/CAM/CAE technology combined with Rapid Prototyping Manufacturing, and manufacturing of lightweight vehicles.