- Students are to follow the requirements of the Handbook for the year they commenced the course.
However, the subject links below do not contain the subject information for the current year. You can view current subject information through the new Course Handbook.
Bachelor of Engineering (Honours) (Computer Engineering) | 2019
Computer Engineering is a field focused on computer hardware design and computer systems now embedded in every aspect of daily life. Graduates of the Bachelor of Engineering (Honours) (Computer Engineering) will be prepared for careers in almost any industry where computer systems are prevalent – computer hardware design, medical equipment, automotive and transport sector, smart buildings, automated public infrastructure, and design of personal electronic devices. As a Washington Accord accredited program, graduates are qualified for employment in Computer Engineering roles in many other countries.
Under the supervision of experienced engineers, graduates will be capable of holding positions with significant responsibility for design of computer hardware and embedded systems. Specific roles may include, but are not limited to: design of embedded computing technologies in public transport systems such as electronic ticketing devices; hardware design for imaging systems like vehicle number plate recognition design of consumer computing hardware, wearable devices, smart electricity meters, personal computers, consumer electronics. Graduates will contribute within teams for complex projects and may take a lead role in design work, troubleshooting, testing, analysis and verification of component and system performance, project management, and system commissioning. Graduates may have responsibilities around client and stakeholder relations; procurement; safe work practices; quality assurance in project delivery; reporting and, consideration of standards, regulations and compliance. Graduates will have strong project and people management skills and may take on responsibility for overseeing teams, contractors and consultants within the first five years from graduation.
UOW has a long and successful history of innovation, industry collaboration applied engineering research, and engineering consultancy. The practical engineering culture at UOW is reflected in its degree programs and graduates. Students studying the Bachelor of Engineering (Honours) (Computer Engineering) will have opportunities to consider ethical and social challenges relating to engineering, and develop innovative solutions in real-world focused projects in each year of the degree program. They are also able develop strong professional skills through extra-curricular and co-curricular activities in the Work Integrated Learning program. The degree program is delivered through a range of study modes and assessment types, supported by digital technologies, to ensure graduates are flexible learners, well prepared to adapt to future challenges. Students also participate in multidisciplinary projects, providing them with opportunities to learn the language of engineering and the engineering methods applied in different disciplines. Graduates of the program leave UOW experienced in working in diverse teams ready to integrate into the workforce. Further, UOW graduates are equipped with the skills to recognise opportunities for further learning and technical specialisation to adapt to changing industry requirements.
The course has been developed to support students from a range of educational and professional backgrounds, including international and domestic school leavers, certificate and diploma qualified individuals with experience in the engineering sector. Pathway programs are available to strengthen students’ mathematics, science, and English language background prior to commencement. The program is best suited to those with an interest in electronic devices, computer hardware and coding.
Through the Bachelor of Engineering (Honours) (Computer Engineering) program, graduates will be prepared to make a significant contribution to society through innovation, creative thinking, and disciplinary expertise. Computer Engineering graduates will be well placed to contribute to innovation in areas that support modern society from intelligent, connected personal devices to integrated computing hardware in large infrastructure.
Entry Requirements & Credit Arrangements
Information on academic and English language requirements, as well as eligibility for credit for prior learning, is available from the Course Finder.
Course Structure
| Subject Code | Subject Name | Credit Points | Session(s) |
|---|---|---|---|
| Year 1 | |||
| ENGG102 | Fundamentals of Engineering Mechanics | 6 | Autumn |
| ENGG103 | Materials in Design | 6 | Autumn |
| ENGG105 | Engineering Design for Sustainability | 6 | Autumn |
| MATH141 | Foundations of Engineering Mathematics | 6 | Autumn, Spring |
| ENGG100 | Engineering Computing and Analysis | 6 | Spring |
| ENGG104 | Electrical Systems | 6 | Spring |
| PHYS143 | Physics For Engineers | 6 | Spring |
| MATH142 | Essentials of Engineering Mathematics | 6 | Spring, Summer 2019/2020 |
| Year 2 | |||
| ECTE202 | Circuits and Systems | 6 | Autumn |
| CSCI291 | Programming for Engineers | 6 | Autumn |
| ECTE233 | Digital Hardware | 6 | Autumn |
| MATH283 | Advanced Engineering Mathematics and Statistics | 6 | Autumn |
| ECTE250 | Engineering Design and Management 2 | 6 | Spring |
| ECTE203 | Signals and Systems | 6 | Spring |
| ECTE212 | Electronics | 6 | Spring |
| ECTE213 | Engineering Electromagnetics | 6 | Spring |
| Year 3 | |||
| ECTE333 | Microcontroller Architecture and Applications | 6 | Annual |
| ECTE350 | Engineering Design and Management 3 | 6 | Annual |
| ECTE301 | Digital Signal Processing | 6 | Autumn |
| ECTE324 | Power Engineering 1 | 6 | Autumn |
| ECTE363 | Communication Systems | 6 | Autumn |
| ECTE399 | Professional Experience^ | 0 | Autumn, Spring |
| ECTE344 | Control Theory | 6 | Spring |
| ECTE331 | Real-time Embedded Systems | 6 | Spring |
| ECTE364 | Data Communications | 6 | Spring |
^Students may complete FEIS400 as an alternative option for Professional Experience, which can be counted towards a Minor in Engineering Innovation and Entrepreneurship | |||
| FEIS400 | Lean Engineering Start Up | 12 | Summer 2019/2020 |
| Year 4 | |||
| ECTE451 | Engineering Project 1 | 6 | Autumn, Spring |
| ECTE458 | Engineering Project 2 | 12 | Autumn, Spring |
| ECTE432 | Computer Architecture | 6 | Spring |
| Plus | |||
| 2 Computer Engineering Major Subjects | 12 | Spring | |
| 1 List A SECTE Electives subject | 6 | Spring | |
| 1 List A SECTE Electives OR List B General Electives subject* | 6 | Autumn, Spring | |
| *Bachelor of Engineering Scholar (Honours) students must complete ECTE355 instead of 1 List B General Electives subject | |||
| ECTE355 | Scholars Project | 6 | Autumn, Spring |
Computer Engineering Major Subjects
| Subject Code | Subject Name | Credit Points | Session(s) |
|---|---|---|---|
| ECTE401 | Multimedia Signal Processing | 6 | Autumn |
| ECTE433 | Embedded Systems | 6 | Autumn |
| CSCI318 | Software Engineering Practices & Principles | 6 | Spring |
| ECTE471 | Robotics and Flexible Automation | 6 | Spring |
* Scholars students must complete ECTE355 Scholars Project instead of a List B General Elective subject. Students must seek enrolment advice at the beginning of their Third Year.
List A SECTE Elective Subjects
Subjects appearing on the List A SECTE Elective Subjects list will only count as either a Major Subject or a List A SECTE Electives subject.
Unless class numbers warrant, not all Elective Subjects will be offered in any one year.
Professional Recognition/Accreditation
UOW's engineering programs are accredited by Engineers Australia and relevant world engineering bodies through the Washington Accord. This ensures recognition by equivalent professional engineering bodies in the USA, UK, Hong Kong, Japan, New Zealand, Canada, South Africa, Ireland, Korea, Malaysia, Singapore and other countries.
UOW is a member of the Group of Eight (Go8) Deans of Engineering and Associates, in recognition of its being among the top Australian engineering faculties. This achievement is a direct result of our world class reputation in teaching and research.
Other Information
For further information email: eis@uow.edu.au or Academic Program Director