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Bachelor of Engineering (Computer Systems) - Queensland University of Technology |
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TEL: 0207 193 7932
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| QTAC code: | | 412502 |
| | Domestic entry: | | February |
| | Past OP cut-off: | | 12 |
| | Past rank cut-off: | | 76 |
| | Assumed knowledge: | | English (4, SA) and Maths B (4, SA) |
| | Preparatory studies: | | MATHS: QUT unit Preparatory Mathematics as a visiting student or QUT Continuing Professional Education course Mathematics Bridging. ENGLISH: Successful completion of a year of full-time vocational or tertiary study. |
| | OP Guarantee: | | Yes |
| | CRICOS code: | | 056529D |
| | International entry: | | February |
| | Course duration (full-time): | | 4 years |
| | Total credit points: | | 384 |
| | Standard credit points/full-time semester: | | 48 |
| | Campus: | | Gardens Point |
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Why choose this course?
This is a uniquely designed course integrating software, hardware and application domains with emphasis on real-time, embedded and networked systems.
Career outcomes
This is a rapidly growing discipline and as a Computer Systems Engineering graduate you will have excellent employment prospects both locally and internationally.
Practical teaching
In year one you will do hands on activities in both the Electrical and and IT laboratories. you will also study two special laboratory based design units on real-time embedded systems and communication environments for computer-based systems.
Industry links
You will be exposed to ideas and experience of guest lecturers from the real world and industry professionals. Our academic staff are industry experienced and also members of international networks and collaborative research projects.
Course structure
By being exposed to real-world lectures at QUT, and completing industrial experience you will receive a through grounding in the engineering sciences and the hands-on experience desired by industry and potential employers.
Facilities / technology
You will have first-hand experience of the latest technologies used in the industry in specially developed laboratories.
Convenience
You will study at QUT's Gardens Point campus in the centre of Brisbane, within easy walking distance to public transport, including buses, trains and ferries.
Who should do this course?
If you are interested in any of the following, you may enjoy a career in Computer Systems Engineering:
working in technology.
electronics, computers and electromechanical equipment.
solving technical problems.
Additional Admission Information
Applicants who are offered place and eligible to receive 168 credit points (or more) of advanced standing will be admitted to the EE46 Bachelor of Engineering (Computer Systems).
Recommended Study
Chemistry, Maths C and Physics.
Career Outcomes
Graduates will be employed as design engineers, software engineers, hardware engineers, computer system engineers, information systems engineers, research and development engineers and project managers.
Overview
Students will study units from both electrical engineering and computing from a computer-based systems perspective. The course aims to produce students who are employable as design engineers, software and hardware engineers, computer systems engineers, and information systems engineers.
Professional Recognition
Full professional accreditation from Engineers Australia has been given for this course.
Optional Pathways
Students entering the Bachelor of Engineering (Electronics)/Bachelor of Information Technology course or the Bachelor of Engineering (Telecommunications) course can change to the Bachelor of Engineering (Computer Systems) at the end of the first year without loss of credit, subject to approval from the course coordinator and meeting minimum course requirements.
Special Course Requirements
Students must complete at least 60 days industrial experience in order to graduate.
International Student Entry
International students must maintain an enrolment program that will allow them to complete their course within the specified timeframe of their eCoE (electronic Confirmation of Enrolment).
Course Structure
| Code | Title | | Year 1 - Semester 1 | | BEB100 | Introducing Professional Learning | | ITB001 | Problem Solving and Programming | | MAB131 | Engineering Mathematics 1A | | | OR | | MAB180 | Engineering Mathematics 1B | | PCB136 | Engineering Physics 1C | | Year 1- Semester 2 | | BEB200 | Introducing Sustainability | | ENB103 | Electrical Engineering | | ITB003 | Object Oriented Programming | | MAB132 | Engineering Mathematics 2A | | | OR | | MAB182 | Engineering Mathematics 2B | | Year 2 - Semester 1 | | ENB240 | Introduction To Electronics | | ENB242 | Introduction To Telecommunications | | ITB711 | Programming Abstraction | | MAB233 | Engineering Mathematics 3 | | Year 2 - Semester 2 | | ENB243 | Linear Circuits and Systems | | ENB244 | Microprocessors and Digital Systems | | ENB245 | Introduction To Design and Professional Practice | | ITB006 | Networks | | Year 3 - Semester 1 | | ENB301 | Instrumentation and Control | | ENB342 | Signals, Systems and Transforms | | ENB350 | Real-time Computer-based Systems | | | IT Elective | | Year 3 - Semester 2 | | ENB345 | Advanced Design and Professional Practice | | ENB346 | Digital Communications | | ENB352 | Communication Environments For Embedded Systems | | ITB744 | Computer Architecture | | Year 4 - Semester 1 | | BEB701 | Work Integrated Learning 1 | | BEB801 | Project 1 | | ENB441 | Applied Image Processing | | | OR | | | IT Elective | | ITB747 | Real Time Rendering Techniques | | Year 4 - Semester 2 | | BEB802 | Project 2 | | ENB448 | Signal Processing and Filtering | | ENB458 | Modern Control Systems | | ITB743 | Artificial Intelligence |
Potential careers
Computer Systems Engineer
Electrical and Computer Engineer
Systems Programmer
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