C09076v3 Bachelor of Engineering (Honours) Bachelor of Creative Intelligence and Innovation
University of Technology Sydney
About
This course is a comprehensive preparation for careers in the professional practice of engineering.
Students learn to deal with complex systems and manage large-scale projects using the most appropriate emerging technologies.Taking a transdisciplinary approach, Creative Intelligence and Innovation utilises multiple perspectives from diverse fields, integrating a range of industry experiences, real-world projects and self-initiated proposals, equipping graduates to address the wicked problems, complex challenges and untapped opportunities in today's world.This course adopts a practice-based approach to engineering education and the course content is a mix of theory and practice.
As well as gaining strong technical skills in engineering, students gain skills in business analysis, problem-solving, teamwork and communication.
Employers look for graduates with industry experience and, in this course, students are exposed to real engineering problems in their coursework as well as completing 12 weeks' work experience.
Interaction between work experience and academic curriculum is very strong.By focusing on the high-level conceptual thinking and problem-solving practices that lead to the development of innovative, creative and entrepreneurial outcomes, students of the combined degree also gain leading edge capabilities that are highly valued in the globalised world, including dealing with critical and creative thinking, invention, complexity, innovation, future scenario building and entrepreneurship, and the ability to work on their own across disciplines.
These creative intelligence competencies enable graduates to navigate in a rapidly changing world.
Structure
Students are required to complete 270 credit points, comprising 174 credit points in engineering and 96 credit points in creative intelligence and innovation. The engineering component consists of core (48 credit points), major (field of practice) (120 credit points) and professional engineering practice (6 credit points).
The engineering major is selected at the time of admission; however, it is possible to apply to change major at a later date. Students selecting the flexible major should decide by the end of the first year of full-time study whether to transfer to a designated major or continue with the flexible program.
The creative intelligence and innovation subjects are undertaken in accelerated form within July and Summer sessions during the first three years of study, and through one full year of study after completion of the professional degree. The Bachelor of Creative Intelligence and Innovation is not offered as a separate degree, but is completed only in combination with the professional degree program.
Industrial training/professional practice
This course is not available with the Diploma in Professional Engineering Practice.
Students graduating with a Bachelor of Engineering (Honours) without the Diploma in Professional Engineering Practice are required to obtain the equivalent of at least 12 weeks' exposure to professional engineering practice, preferably outside the university environment. For further details, refer to 41028 Engineering Work Experience.
In the final year of the Bachelor of Creative Intelligence and Innovation, students can undertake between 6 and 12 credit points of internship (work experience) that relates to innovation within their research, career development or core degree specialisations. For students undertaking 12 credit points of internship, international internships may be negotiated.
This course involves significant industry engagement as part of the learning process. Students may be required to relinquish intellectual property when they opt in to certain industry-related experiences, particularly relating to internships and capstone projects.
Course completion requirements
| course | credit |
|---|---|
| STM90106 Core subjects | 48cp |
| CBK90954 Major choice (Engineering) | 120cp |
| STM90994 Professional Engineering Practice stream | 6cp |
| STM90839 Core subjects (Creative Intelligence and Innovation) | 96cp |
| Total | 270cp |
Course program
The sample program below shows a suggested sequence of subjects for the biomedical engineering major. For other majors, refer to the course program in the Bachelor of Engineering (Honours) (C09066). The program is intended as a guide only and does not take into account such factors as recognition of prior learning, changes in attendance mode and subject availability, or satisfactory academic progress. Students should consult the Timetable Planner to confirm the availability of subjects in the current academic year.
Biomedical Engineering major with BCII
Year 1
Autumn session
| course | credit |
|---|---|
| 48510 Introduction to Electrical and Electronic Engineering | 6cp |
| 68037 Physical Modelling | 6cp |
| 33130 Mathematical Modelling 1 | 6cp |
| 48230 Engineering Communication | 6cp |
July session
| course | credit |
|---|---|
| 81511 Problems to Possibilities | 8cp |
Spring session
| course | credit |
|---|---|
| 33230 Mathematical Modelling 2 | 6cp |
| 65111 Chemistry 1 | 6cp |
| Select 6 credit points from the following: | 6cp |
| 48441 Introductory Digital Systems | |
| 48622 Mechatronics 1 | |
| Select 6 credit points from the following: | 6cp |
| 48023 Programming Fundamentals | |
| 48221 Engineering Computations | |
Summer session
| course | credit |
|---|---|
| 81512 Creative Practice and Methods | 8cp |
Year 2
Autumn session
| course | credit |
|---|---|
| 48240 Design and Innovation Fundamentals | 6cp |
| 91161 Cell Biology and Genetics | 6cp |
| 31271 Database Fundamentals | 6cp |
| 91400 Human Anatomy and Physiology | 6cp |
| 41035 Engineering Practice Preparation 1 | 3cp |
July session
| course | credit |
|---|---|
| 81513 Past, Present, Future of Innovation | 8cp |
Spring session
| course | credit |
|---|---|
| 48250 Engineering Economics and Finance | 6cp |
| 48520 Electronics and Circuits | 6cp |
| 91703 Physiological Systems | 6cp |
Summer session
| course | credit |
|---|---|
| 81514 Creativity and Complexity | 8cp |
Year 3
Autumn session
| course | credit |
|---|---|
| 48260 Engineering Project Management | 6cp |
| 91705 Medical Devices and Diagnostics | 6cp |
| Select 6 credit points from the following: | 6cp |
| 91403 Medical Imaging | |
| 91706 Neuroscience | |
| 48623 Mechatronics 2 | |
| 48560 Control Studio A | |
| 31005 Machine Learning | |
| 31256 Image Processing and Pattern Recognition | |
| 31250 Introduction to Data Analytics | |
July session
| course | credit |
|---|---|
| 81515 Leading Innovation | 8cp |
Spring session
| course | credit |
|---|---|
| 41029 Engineering Research Preparation | 6cp |
| 48270 Entrepreneurship and Commercialisation | 6cp |
| Select 12 credit points from the following: | 12cp |
| 91403 Medical Imaging | |
| 91706 Neuroscience | |
| 48623 Mechatronics 2 | |
| 48560 Control Studio A | |
| 31005 Machine Learning | |
| 31256 Image Processing and Pattern Recognition | |
| 31250 Introduction to Data Analytics | |
Summer session
| course | credit |
|---|---|
| 81516 Initiatives and Entrepreneurship | 8cp |
| 81522 Innovation Internship A | 6cp |
Year 4
Autumn session
| course | credit |
|---|---|
| 41030 Engineering Capstone | 6cp |
| Select 6 credit points from the following: | 6cp |
| 91403 Medical Imaging | |
| 91706 Neuroscience | |
| 48623 Mechatronics 2 | |
| 48560 Control Studio A | |
| 31005 Machine Learning | |
| 31256 Image Processing and Pattern Recognition | |
| 31250 Introduction to Data Analytics | |
| Select 12 credit points from the following: | 12cp |
| 42001 Bioinformatics | |
| 49274 Advanced Robotics | |
| 49275 Neural Networks and Fuzzy Logic | |
| 49261 Biomedical Instrumentation | |
Spring session
| course | credit |
|---|---|
| 41028 Engineering Work Experience | 0cp |
Year 5
Autumn session
| course | credit |
|---|---|
| 81521 Envisioning Futures | 6cp |
| 81531 Industry Innovation Project | 12cp |
| 41055 Engineering Workplace Reflection | 3cp |
Spring session
| course | credit |
|---|---|
| 81524 Professional Practice at the Cutting Edge | 6cp |
| 81532 Creative Intelligence Capstone | 12cp |
| Select 6 credit points from the following: | 6cp |
| 81525 Innovation Internship B | |
| 81523 Speculative Start-up | |
| 81528 New Knowledge-making Lab | |
Entry requirements
Applicants must have completed an Australian Year 12 qualification, Australian Qualifications Framework Diploma, or equivalent Australian or overseas qualification at the required level.
Current school leavers are advised to complete the Year 12 Engineering and IT Questionnaire. The questionnaire allows applicants to demonstrate their strong motivation to study engineering or IT at UTS and may assist applicants whose ATAR falls short of the required cut-off by up to three points.
Non-current school leavers are advised to complete the employment question on their UAC application as adjustment factors may be applied on the basis of relevant work experience.
The English proficiency requirement for international students or local applicants with international qualifications is: Academic IELTS: 6.5 overall with a writing score of 6.0; or TOEFL: paper based: 550-583 overall with TWE of 4.5, internet based: 79-93 overall with a writing score of 21; or AE5: Pass; or PTE: 58-64; or CAE: 176-184.
Eligibility for admission does not guarantee offer of a place.
International students
Visa requirement: To obtain a student visa to study in Australia, international students must enrol full time and on campus. Australian student visa regulations also require international students studying on student visas to complete the course within the standard full-time duration. Students can extend their courses only in exceptional circumstances.
Institution
