- Length 2 year full-time
- Minimum 96 Units
- Academic plan NMECH
- CRICOS code 077326G
- UAC code
Field of Education
- Engineering and Related Tech
The Master of Engineering in Mechatronics requires the completion of 96 units, which must consist of:
54 units from completion of the following compulsory courses:
ENGN6250 Professional Practice 1
ENGN8260 Professional Practice 2
ENGN8100 Introduction to Systems Engineering
ENGN8120 Systems Modelling
ENGN8170 Group Project (12 units)
ENGN6213 Digital Systems and Microprocessors
ENGN6223 Control Systems
A minimum of 6 units from completion of technical group 1 courses from the following list:
ENGN6528 Computer Vision
COMP6710 Structured Programming
COMP6730 Programming for Scientists
ENGN6224 Fluid Mechanics and Heat Transfer
ENGN6331 Systems Dynamics
ENGN6628 Network Optimisation and Control (New course commencing in 2021)
A minimum of 24 units from completion of technical group 2 courses from the following list:
ENGN8535 Engineering Data Analytics
ENGN8536 Advanced Topics in Mechatronics Systems
ENGN8537 Embedded Systems and Real Time Digital Signal Processing
ENGN8538 Probability and Stochastic Processes in Engineering
ENGN8831 Integration of Renewable Energy into Power Systems and Microgrids
ENGN8833 Industrial Energy Efficiency and Decarbonisation
ENGN8224 Advanced Control Systems
A maximum of 12 units from completion of elective courses offered by ANU
|Year 1 48 units||ENGN8100 Introduction to Systems Engineering 6 units||ENGN6250 Professional Practice 1 6 units||ENGN6213 Digital Systems and Microprocessors 6 units||Group 1 Option 6 units|
|ENGN8120 Systems Modelling 6 units||ENGN8260 Professional Practice 2 6 units||ENGN6223 Control Systems 6 units||ENGN6627 Robotics 6 units|
|Year 2 48 units||Group 2 Option 6 units||Group 2 Option 6 units||Group 2 Option 6 units||University Elective 6 units|
|University Elective 6 units||Group 2 Option 6 units||ENGN8170 Group Project 12 units||ENGN8170 Group Project 12 units|
A Bachelor of Engineering, Bachelor of Engineering (Honours) or international equivalent with a minimum GPA of 5.0/7.0
Electrical Engineering, Electronic Engineering, Optoelectronic Engineering, Physics
English Language Requirements
All applicants must meet the University’s English Language Admission Requirements for Students.
Assessment of Qualifications
Unless otherwise indicated, ANU will accept all Australian Qualifications Framework (AQF) qualifications or international equivalents that meet or exceed the published admission requirements of our programs, provided all other admission requirements are also met. Where an applicant has more than one completed tertiary qualification, ANU will base assessment on the qualification that best meets the admission requirements for the program. Find out more about the Australian Qualifications Framework: www.aqf.edu.au
ANU uses a 7-point Grade Point Average (GPA) scale. All qualifications submitted for admission at ANU will be converted to this common scale, which will determine if an applicant meets our published admission requirements. Find out more about how a 7-point GPA is calculated for Australian universities: www.uac.edu.au/future-applicants/admission-criteria/tertiary-qualifications
Unless otherwise indicated, where an applicant has more than one completed tertiary qualification, ANU will calculate the GPA for each qualification separately. ANU will base assessment on the best GPA of all completed tertiary qualifications of the same level or higher.
- Annual indicative fee for domestic students
For more information see: http://www.anu.edu.au/students/program-administration/costs-fees
- Annual indicative fee for international students
For further information on International Tuition Fees see: https://www.anu.edu.au/students/program-administration/fees-payments/international-tuition-fees
ANU offers a wide range of scholarships to students to assist with the cost of their studies.
Eligibility to apply for ANU scholarships varies depending on the specifics of the scholarship and can be categorised by the type of student you are. Specific scholarship application process information is included in the relevant scholarship listing.
For further information see the Scholarships website.
This two-year master qualification provides students with specialised knowledge and professional engineering skills to prepare them for a career in one of the rapidly-growing application areas of mechatronics: robotics and automation, control engineering, computer vision, and smart grids. The program builds on the Australian National University’s interdisciplinary engineering focus and research expertise to give students the required skills to address complex multi-disciplinary problems, while at the same time providing advanced technical knowledge in one or more of the above fields.
Work integrated learning is an important part of the program and is delivered through the group project and integrated exposure to professional practice throughout the program.
Graduates from ANU have been rated as Australia's most employable graduates and among the most sought after by employers worldwide.
The latest Global Employability University Ranking, published by the Times Higher Education, rated ANU as Australia's top university for getting a job for the fourth year in a row.
Upon successful completion, students will be able to:
1. Professionally apply systematic engineering methods to address complex, multi-disciplinary real-world engineering problems related to robotics and mechatronic systems.
2. Proficiently apply advanced, integrated technical knowledge in mechatronics and the underpinning sciences and scientific methods.
3. Identify and critically evaluate current developments and emerging trends within the robotics, intelligent systems, and industry automation sector.
4. Understand the contextual factors that influence professional engineering practice, and identify the potential societal, ethical, and environmental impact of engineering activities.
5. Communicate effectively with colleagues, other engineering professionals and the broader community employing a range of communication tools.
6. Engage in independent investigation, critical reflection and lifelong learning to continue to practice at the forefront of the discipline.
7. Work effectively and proactively within cross-cultural, multi-disciplinary teams, demonstrating autonomy, ethical conduct, expert judgement, adaptability and responsibility to achieve engineering outcomes at a high standard.
Further InformationLearn more about the degrees offered at the ANU College of Engineering and Computer Science, read current student profiles to see what campus life is really like, and discover what our graduates have achieved since leaving the College — Visit the College of Engineering and Computer Science website.
New students should read the document found here for course advice.