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Masters Degrees in Systems Engineering, Australia

We have 3 Masters Degrees in Systems Engineering, Australia

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IN THIS INTENSIVE, PART-TIME, 18-MONTH ONLINE PROGRAM YOU WILL GAIN. - Skills and know-how in the latest technologies in electrical engineering. Read more
IN THIS INTENSIVE, PART-TIME, 18-MONTH ONLINE PROGRAM YOU WILL GAIN:

- Skills and know-how in the latest technologies in electrical engineering
- Practical guidance from electrical engineering experts in the field
- Knowledge from the extensive experience of the lecturers, rather than from only the theoretical information gained from books and college
- Credibility as the local electrical engineering expert in your firm
- Networking contacts in the industry
- Improved career prospects and income
- An Advanced Diploma of Applied Electrical Engineering (Electrical Systems)

Next intake starts October 09, 2017. Registrations are now open.

Payment is not required until 2 to 4 weeks before the start of the program.

The EIT Advanced Diploma of Applied Electrical Engineering (Electrical Systems) is recognized worldwide and has been endorsed by the International Society of Automation (ISA). Please ask us about specific information on accreditation for your location.

OVERVIEW

Join the next generation of electrical engineers and technicians and embrace a well paid, intensive yet enjoyable career by embarking on this comprehensive course on electrical engineering. It is presented in a practical and useful manner - all theory covered is tied to a practical outcome. Leading electrical engineers who are highly experienced engineers from industry, having 'worked in the trenches' in the various electrical engineering areas present the course over the web in a distance learning format using our acclaimed live e-learning techniques.

The course starts with an overview of the basic principles of electrical engineering and then goes on to discuss the essential topics in depth. With a total of 16 modules, everything that is of practical value from electrical distribution concepts to the equipment used, safety at work to power quality are all looked at in detail. Each module contains practical content so that the students can practice what they learn including the basic elements of designing a system and troubleshooting.

Most academic courses deal with engineering theory in detail but fall short when it comes to giving practical hints on what a technician is expected to know for a job in the field. In this course, the practical aspects receive emphasis so that when you go out into the field you will have the feeling that ‘you have seen it all.

*JOB OUTCOMES, INTERNATIONAL RECOGNITION AND PROFESSIONAL MEMBERSHIP:

A range of global opportunities awaits graduates of the Advanced Diploma of Applied Electrical Engineering (Electrical Systems). Pending full accreditation you may become a full member of Engineers Australia and your qualification will be recognized by Engineers Australia and (through the Dublin Accord) by leading professional associations and societies in Australia, Canada, Ireland, Korea, New Zealand, South Africa, United Kingdom and the United States. The Dublin Accord is an agreement for the international recognition of Engineering Technician qualifications.

For example, current enrolled students can apply for free student membership of Engineers Australia. After graduation, you can apply for membership to become an Engineering Associate, while graduates interested in UK recognition can apply for membership of the Institution of Engineering and Technology (IET) as a Technician Member of the Institution of Engineering and Technology.

This professional recognition greatly improves the global mobility of graduates, and offers you the opportunity of a truly international career.

You will be qualified to find employment as an Engineering Associate in public and private industry including transportation, manufacturing, process, construction, resource, energy and utilities industries. Engineering Associates often work in support of professional engineers or engineering technologists in a team environment. If you prefer to work in the field you may choose to find employment as a site supervisor, senior technician, engineering assistant, or similar.

WHO SHOULD COMPLETE THIS PROGRAM?

- Electrical Engineers and Technicians
- Project Engineers
- Design Engineers
- Instrumentation and Design Engineers
- Electrical Technicians
- Field Technicians
- Electricians
- Plant Operators
- Maintenance Engineers and Supervisors
- Energy Management Consultants
- Automation and Process Engineers
- Design Engineers
- Project Managers
- Instrument Fitters and Instrumentation Engineers
- Consulting Engineers
- Production Managers
- Chemical and Mechanical Engineers
- Instrument and Process Control Technicians

In fact, anyone who wants to gain solid knowledge of the key elements of electrical engineering – to improve work skills and to create further job prospects. Even those of you who are highly experienced in electrical engineering may find it useful to attend some of the topics to gain key, up to date perspectives on electrical engineering.

PROGRAM STRUCTURE

The course is composed of 16 modules. These cover the following seven main threads to provide you with maximum practical coverage in the field of electrical engineering

- Electrical technology fundamentals
- Distribution equipment and protection
- Rotating machinery and transformers
- Power electronics
- Energy efficiency
- Earthing and safety regulations
- Operation and maintenance of electrical equipment

The 16 modules will be completed in the following order:

- Electrical Circuits
- Basic Electrical Engineering
- Fundamentals of Professional Engineering
- Electrical Drawings
- Electrical Power Distribution
- Transformers, Circuit Breakers and Switchgear
- Electrical Machines
- Power Cables and Accessories
- Earthing and Lightning / Surge Protection
- Power System Protection
- Electrical Safety and Wiring Regulations
- Testing, Troubleshooting and Maintenance of Electrical Equipment
- Energy Efficiency and Energy Use
- Power Quality
- Power Electronics and Variable Speed Drives
- DC and AC High Reliability Power Supplies

COURSE FEES

What are the fees for my country?

The Engineering Institute of Technology (EIT) provides distance education to students located all around the world – it is one of the very few truly global training institutes. Course fees are paid in a currency that is determined by the student’s location. We aim to give you a rapid response regarding course fees that are relevant to your individual circumstances.

We understand that cost is a major consideration before a student begins to study. For a rapid reply to your query regarding course fees and payment options, please contact a Course Advisor in your region via the below button and we will respond within two (2) business days.

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EIT is pleased to bring you the Master of Engineering (Electrical Systems)** program. IN THIS ACCREDITED AND PRESTIGIOUS PROGRAM YOU WILL GAIN. Read more
EIT is pleased to bring you the Master of Engineering (Electrical Systems)** program.

IN THIS ACCREDITED AND PRESTIGIOUS PROGRAM YOU WILL GAIN:
- Skills and know-how in the latest and developing technologies in electrical systems
- Practical guidance and feedback from experts from around the world
- Live knowledge from the extensive experience of expert instructors, rather than from just theoretical information gained from books and college
- Credibility and respect as the local electrical systems expert in your firm
- Global networking contacts in the industry
- Improved career choices and income
- A valuable and accredited Master of Engineering (Electrical Systems)** qualification

The next intake will start on the week of June 27, 2016.

Contact us to find out more and apply (http://www.eit.edu.au/course-enquiry).

** A note regarding recognition of this program in the Australian education system: EIT is the owner of this program. The qualification is officially accredited by the Tertiary Education Quality and Standards Agency (TEQSA). EIT delivers this program to students worldwide.

Visit the website http://www.eit.edu.au/master-engineering-electrical-systems

PROFESSIONAL RECOGNITION

This Master Degree (or Graduate Diploma) is officially accredited by the Tertiary Education Quality and Standards Agency (TEQSA) in Australia.

It is a professional development program and is not currently an entry-to-practice qualification. Engineers Australia are considering this and other programs for those students desiring professional status (e.g. CPEng). However, the outcome of this review may or may not result in a student gaining chartered professional status if he or she does not already possess this.

Additional Entry Requirements

An appropriate level of English Language Proficiency equivalent to an English pass level in an Australian Senior Certificate of Education, or an IELTS score of 6.5 (with no individual band less than 6.0) or equivalent as outlined in the EIT Admissions Policy.

Congruent field of practice means one of the following with adequate electrical engineering content (with fields not listed below to be considered by the Dean and the Admissions committee on a case-by-case basis):

• Electrical Engineering

• Electronic and Communication Systems

• Industrial Engineering

• Instrumentation, Control and Automation

• Mechatronic Systems

• Manufacturing and Management Systems

• Industrial Automation

• Production Engineering

Overview

Electrical power is an essential infrastructure of our society. Adequate and uninterrupted supply of electrical power of the required quality is essential for industries, commercial establishments and residences; and almost any type of human activity is impossible without the use of electricity. The ever-increasing cost of fuels required for power generation, restricted availability in many parts of the world, demand for electricity fueled by industrial growth and shortage of skilled engineers to design, operate and maintain power network components are problems felt everywhere today. The Master of Engineering (Electrical Systems) is designed to address the last-mentioned constraint, especially in today’s context where the field of electrical power is not perceived as being ‘cool’ unlike computers and communications and other similar nascent fields experiencing explosive growth. But it is often forgotten that even a highly complex and sophisticated data centre needs huge amounts of power of extremely high reliability, without which it is just so much silicon (and copper).

This program presents the topics at two levels. The first year addresses the design level where the student learns how to design the components of a power system such as generation, transmission and distribution as well as the other systems contributing to the safety of operation. The topics in the first year also cover the automation and control components that contribute to the high level of reliability expected from today’s power systems. Because of the constraints imposed by the fuel for power generation and the environmental degradation that accompanies power generation by fossil fuels, the attention today is focused on renewable energy sources and also more importantly how to make the generation of power more efficient and less polluting so that you get a double benefit of lower fuel usage and lower environmental impact. Even the best designed systems need to be put together efficiently. Setting up power generation and transmission facilities involves appreciable capital input and complex techniques for planning, installation and commissioning. Keeping this in view, a unit covering project management is included in the first year.

The second year of the program focuses on the highly complex theory of power systems. If the power system has to perform with a high degree of reliability and tide over various disturbances that invariably occur due to abnormal events in the power system, it is necessary to use simulation techniques that can accurately model a power system and predict its behavior under various possible disturbance conditions. These aspects are covered in the course units dealing with power system analysis and stability studies for steady-state, dynamic and transient conditions. The aspect of power quality and harmonic flow studies is also included as a separate unit.

The study of power systems has an extensive scope and besides the topics listed above, a student may also like to cover some other related topic of special interest. The ‘Special Topics in Electrical Power Systems’ unit aims to provide students with the opportunity for adding one ‘state-of-the art’ topic from a list of suggested fields. Examples are: Smart grids, Micro-grids and Geographic Information System (GIS) application in utility environment.

The Masters Thesis which spans over two complete semesters is the capstone of the program, requiring a high level of personal autonomy and accountability, and reinforces the knowledge and skill base developed in the preceding units. As a significant research component of the course, this program component will facilitate research, critical evaluation and the application of knowledge and skills with creativity and initiative, enabling the students to critique current professional practice in the electrical power industry.

WHO WOULD BENEFIT

Those seeking to achieve advanced know-how and expertise in industrial automation, including but not limited to:

- Electric Utility engineers

- Electrical Engineers and Electricians

- Maintenance Engineers and Supervisors

- Energy Management Consultants

- Automation and Process Engineers

- Design Engineers

- Project Managers

- Consulting Engineers

- Production Managers

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Transportation professionals require a range of advanced skills with a global perspective to develop more sustainable transport systems. Read more

Master of Transportation Systems, SEU-Monash Joint degree

Transportation professionals require a range of advanced skills with a global perspective to develop more sustainable transport systems. To gain this technical and planning expertise in transportation systems, Southeast University and Monash University have established a joint Master’s program in Transportation Systems. This joint Master’s program is undertaken over two years and students graduate with two Master’s degrees; one from Southeast University and one from Monash University.

This first year of the program comprises two semesters of coursework units delivered in English. Units are taught at the Southeast University and Monash University Joint Graduate School in Suzhou, China. The Joint Graduate School in Suzhou is located in the newly developed Suzhou Dushu Lake Higher Education Town that is a part of the Science and Education Innovation District of Suzhou. This area has a number of Universities and Research Institutes as well as recreation and cultural facilities.

In Semester 1, students are required to take six units taught by Southeast University consisting of three core units and three elective units:

Core Units, Semester 1 (by SEU):

- Research Seminar
- Highway Design Theory and Methods
- Road Traffic Safety

Elective Units, Semester 1 (by SEU):

- Highway Operation and Management
- Urban Transport Network Analysis
- Theory and Method for Pavement Design
- Advanced Soil Mechanics
- Advanced Pavement Materials

In Semester 2, students are required to take another six core units delivered by Monash University:

- Intelligent Transportation Systems: Engineering & Management*
- Quantitative Methods for Transportation Systems Analysis*
- Modelling Transportation Systems*
- Urban Public Transportation Systems
- Sustainable Transportation Systems Planning
- Case Studies in Transportation Systems

For the above three units marked by “*”, the students can elect to take these course at the Monash University Clayton Campus in Melbourne, Australia.

The second year of the program consists of students undertaking a research project supervised by academics from Southeast University as well as a mentor from industrial institutes in the Suzhou area. A research thesis is required for each student.

Visit the website http://eng.monash.edu.au/civil/research/centres/its/education-programs/seu-monash-program/

About ITS (Monash)

On behalf of our entire staff and students, it is my great pleasure to welcome you to the Institute of Transport Studies (ITS Monash) at Monash University.

ITS (Monash) has a long and proud history in Monash University and Australia. The transport group at Monash was established in 1969. The Institute of Transport Studies was established in 1995 as the Key National Centre of Excellence in Teaching and Research in Transport Management, recognised by the Australian Government (a joint venture between The University of Sydney and Monash University). For more than four decades the transport group has played a crucial role in the transport field through fundamental, applied and industry-relevant research and education. Through our excellent education programs we continue to educate transportation leaders for industry, government and academia.

At ITS (Monash), we recognise that the next important challenge and opportunity will present itself through availability of live data and low-priced technology to travellers. There will be soon over 3 billion people with connected devices and more than 210 billion sensors out there that will provide a once-in-generation opportunity to tackle issues of complex transport and urban mobility for modern cities. At ITS (Monash) we have aligned our research focus and efforts to take advantage of this new leap in mobility, opportunity to change the way we travel, create sustainable transport, and work toward more liveable cities.

Find out how to apply here - http://eng.monash.edu.au/civil/research/centres/its/education-programs/seu-monash-program/

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