The double degree Bachelor of Engineering (Robotics) (Honours), Master of Engineering (Electrical and Electronic) requires five years of full-time study (or the equivalent part-time).
The course is offered by the College of Science and Engineering.
This combination is accredited at the level of Professional Engineer by Engineers Australia. Professional engineering courses accredited by Engineers Australia are recognised internationallly under the Washington Accord. Graduates meet the academic requirements for attaining chartered Professional Engineering status.
The minimum requirements for consideration for entry to all undergraduate courses are specified in detail in the University Entry Requirements.
Successful completion of either SACE Stage 2 (Year 12) Specialist Mathematics or Mathematical Methods or equivalent International Baccalaureate subjects is normally required for entry. Knowledge of SACE Stage 2 (Year 12) Physics is assumed.
The course has been designed to provide graduates with:
The course provides the foundations that will underpin ongoing professional development, preparing graduates for further study or for a career in an engineering related field or in other areas where the range of skills and knowledge acquired is needed or desirable.
On completion of the award, students will be able to:
On completion of the Bachelor of Engineering (Robotics) (Honours), Master of Engineering (Electronics), students will be eligible for professional membership of Engineers Australia.
To qualify for the Bachelor of Engineering (Robotics) (Honours), Master of Engineering (Electrical and Electronic) a student must complete 180 units with a grade of P or NGP or better in each topic, according to the program of study below.
36 units comprising:
ENGR1201 Electronics (4.5 units)
ENGR1401 Professional Skills (4.5 units)
ENGR1711 Engineering Design (4.5 units)
ENGR1721 Engineering Programming (4.5 units)
ENGR1722 Engineering Physics and Materials (4.5 units)
ENGR1732 Engineering Mechanics (4.5 units)
MATH1121 Mathematics 1A (4.5 units)
MATH1122 Mathematics 1B (4.5 units)
31.5 units comprising:
COMP2711 Computer Programming 2 (4.5 units)
ENGR2702 Electrical Circuits and Machines (4.5 units)
ENGR2711 Engineering Mathematics (4.5 units)
ENGR2722 Analysis of Engineering Systems (4.5 units)
ENGR2731 Electronic Circuits (4.5 units)
ENGR2772 Sensors and Actuators (4.5 units)
ENGR2791 Electrical Engineering Principles (4.5 units)
4.5 units selected from:
ENGR2752 Mechanics of Machines (4.5 units)
ENGR2781 Mechanical Design Project (4.5 units)
31.5 units comprising:
ENGR2712 Automation and Industrial Control (4.5 units)
ENGR2771 Dynamics (4.5 units)
ENGR3701 Computer Organisation and Design (4.5 units)
ENGR3721 Signal Processing (4.5 units)
ENGR3731 Communication Systems (4.5 units)
ENGR3771 Robotic Systems (4.5 units)
ENGR9742 Systems Engineering (4.5 units)
4.5 units of elective topics from across the University where entry requirements are met
18 units comprising:
ENGR3750 Workplace Preparation (0 units)
ENGR7712 Autonomous Systems (4.5 units)
ENGR7761 Computer Vision (4.5 units)
ENGR9704 Engineering Management (4.5 units)
ENGR9721 Control Systems GE (4.5 units)
4.5 units selected from the chosen Minor
13.5 units selected from:
ENGR3700 Engineering Practicum (13.5 units)
ENGR3710 International Engineering Practicum (13.5 units)
18 units comprising:
ENGR9700A Masters Thesis (4.5/18 units)
ENGR9700B Masters Thesis (4.5/18 units)
ENGR9700C Masters Thesis (4.5/18 units)
ENGR9700D Masters Thesis (4.5/18 units)
13.5 units selected from the chosen Minor
4.5 units selected from:
ENGR7711 Advanced Control Systems (4.5 units)
ENGR7732 Instrumentation (4.5 units)
Course Rule Notes
Every effort has been made to ensure the information published on the Course Rule pages is accurate at the time of publication. Flinders University reserves the right to amend its curriculum without prior notice, and will update the Course Rules to reflect any amendments at the earliest opportunity.
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