澳大利亚留学网liuxuequn.com整理皇家墨尔本理工大学优势专业中英文介绍,助学生们更加顺利前往澳大利亚留学。
工程Engineering
Bachelor of Engineering (Computer and Network Engineering)
工程硕士
Computer system engineers design and apply computer systems to provide efficient engineering solutions in almost every sectors of our society. Their work includes designing new products and systems, improving the operation of existing systems, integrating various sub systems and providing updated technical support.
Network engineers design, implement and maintain digital communication networks and computer networks, which are heavily used in our daily life.
Computer engineering in this program focuses on embedded systems design, computational intelligence, industrial information processing, intelligent robotics and multimedia systems which includes speech, image and video signal processing. These fields are driving rapid changes in industry and society, creating new opportunities for technology evolution and leading to the creation of new businesses with both industrial and domestic applications. Network Engineering in this program focuses on the advanced aspects of network design, optimisation, maintenance and protection. The program offers both fundamental knowledge and in-depth technology in network engineering. Internet telephony (i.e. Voice over IP), network performance and network security are some of the specialised areas in the program. Studying in this program also equips students with suitable knowledge for external examinations such as the CISCO CCNA and Microsoft MCSE.
Computer and network engineers play important roles in our society. They can contribute to the design and operation of international telecommunication networks and even space exploration. Their works directly or indirectly improve the quality of life, health and well being of individuals and communities, the productivity of industry, the competitiveness of all kinds of business and the effectiveness of government services.
In years one and two, you will learn the fundamental principles and practices in computer and network engineering, and the mathematics and physics that make up the essential engineering tools. You will also develop essential professional skills such as communication, teamwork, and leadership skills.
In years three and four, the focus is on making you industry ready. You will deepen the technical knowledge and skills in your chosen specialisation, and exercise your design, teamwork, leadership, management and communication skills through individual and team-based projects that closely resemble the work of practising engineers.
Bachelor of Engineering (Electrical Engineering)
工程硕士
Capacity to imagine and a desire to find creative solutions to problems are key to a career in engineering.
Electrical engineers devise engineering solutions for society. Engineers work with professionals in manufacturing, automation, agriculture, transport, resources and energy management, education, environmental monitoring, renewable energy, power generation and distribution, retail and industrial automation, and transportation.
You will learn through a wide variety of modes including lectures, tutorials, and especially laboratories. You will also need to spend a significant amount of your own time on self-directed learning.
In years one and two, you will learn the fundamental principles and practices in electrical engineering, and the mathematics and physics that make up the essential engineering tools. You will also develop essential professional skills including communication, teamwork, and leadership skills.
In years three and four, the focus is on making you industry ready. You will deepen the technical knowledge and skills in your chosen specialisation, and exercise your design, teamwork, leadership, management and communication skills through individual and team-based projects that closely resemble the work of practising engineers.
Bachelor of Engineering (Electronic and Communication Engineering)
工程硕士
入学要求: 雅思6.5, 单科不低于6.0; foundation 课程毕业
Electronic engineers design and apply electronic devices and systems to produce a wide range of goods and services for multiple users including from individuals and households to big industries, businesses and organisations.
Communication engineers design and apply electronic, optical and electromagnetic devices and systems to collect, distribute or exchange information between people or machines, over distances up to many thousands of kilometres across the world or in space. The information may take various forms such as voice, data, picture, audio, video or a combination thereof.
Electronic and communication products and services are a large part of modern living, from mobile phones and computers for individuals, broadband services and high definition TV for households and businesses, satellite navigation and sophisticated safety and control systems for cars, ships and planes, high resolution body scanners for hospitals, greener and cleaner technologies for energy production, satellite phones for remote communities and emergency services, right up to the tracking, telemetry and command (TT&C) and communication systems in satellites and space exploration capsules.
Electronic and communication engineers are the people who design, produce and maintain devices, systems and services that improve the quality of life, health and well being of individuals and communities, the productivity of industry (e.g. agriculture, resources, energy, manufacturing), the competitiveness of all kinds of business, and the effectiveness of government services (e.g. health, education, transport, defence and emergency services).
You will learn through a wide variety of modes including lectures, tutorials, and laboratories. You will also need to spend a significant amount of your own time on self-directed learning.
In years one and two, you will learn the fundamental principles and practices in electronic and communication engineering, and the mathematics and physics that make up the essential engineering tools. You will also develop essential professional skills in communication, teamwork, and leadership.
In years three and four, the focus will be on making you industry ready. You will deepen your technical knowledge and skills in your chosen specialisation, and exercise your design, teamwork, leadership, management and communication skills through individual and team-based projects that closely resemble the work of practising engineers.
Master of Engineering (International Automotive Engineering)
工程硕士
入学要求: 雅思6.5, 单科不低于6.0;
Automotive engineering is the application of principles drawn from the sciences in order to develop economical and sustainable automotive designs or to solve automotive problems. Encompassing complete car design, automotive engineering is global in scope and increasingly environmental in outlook. The industry generates and applies new technologies (e.g. hybrid power trains and fuel cells) for the betterment of society.
The degree has resulted from demands from the industry and students. It builds on a core program of mechanical engineering and offers specialist courses that enable a graduate to be immediately industry ready. Reflecting the increasing interaction between industry and higher education, you may also have the opportunity to take a one-year paid industrial placement with associated academic credit.
Automotive engineering courses include:
Vehicle power systems
An introduction to the development, design, specification, and operation of internal combustion engines for mobile applications with a focus on traditional spark-ignited and diesel engines. It also covers alternative power plants and fuels.
Motor vehicle design and vehicle manufacturing systems
Tackle and solve advanced engineering problems, particularly in the structural design and manufacturing of vehicles and automotive components. The course represents the basis for the analysis and solution of problems related to modern automotive design and manufacturing and advanced computer modelling techniques of real engineering problems
Vehicle handling and control
Covers performance prediction relatively early in the design process and identifies the conflicts in designing for optimal performance in different modes.
Vehicle aerodynamics
Emphasis is placed on solving aerodynamic problems using a balance of computation and experimental techniques. The growing influence of styling on body shape is approached from both an artistic and a scientific viewpoint.
Vehicle noise and vibration
Understand the nature of sound, effectively document human non-linear response to sound, understand the relationship between noise and vibration, and appreciate the difference between structure-borne and air-borne sources.