Electronic engineering is a subfield of the wider electrical engineering discipline and underpins most recent and future technology advances in the field of computation, connectivity, communications, and advanced sensing devices and networks. Electronic engineering includes semiconductor components, device and system architecture, integration and networking, focusing on miniaturisation and the Internet of Things (IOT), intelligently connecting people, process, data and things.
Also read the information for UTS Engineering and Information Technology.
Digital systems, data communications, embedded software, image processing and computer vision, Internet of Things – devices and processes, multimedia analytics, radio frequency design, real-time operating systems, space communication and sensing.
An electronic engineering degree leads to a broad range of industries, including automotive, construction, marine, mining, pharmaceutical, power generation, telecommunications, utilities.
The table below shows the ATAR and Selection Rank information for those offered places wholly or partly on the basis of ATAR in 2023.
ATAR-based offers only, across all offer rounds | ATAR (excluding adjustment factors) | Selection Rank (including adjustment factors) |
---|---|---|
Highest rank to receive an offer | <5 | <5 |
Median rank to receive an offer | <5 | <5 |
Lowest rank to receive an offer | <5 | <5 |
<5 - Less than 5 ATAR-based offers were made
Please refer to the University of Technology, Sydney website for admission criteria information.
This information is sourced from Course Seeker, a joint initiative between the Australian Government and the Tertiary Admission Centres. View more information on Course Seeker.
Open to students from all universities, Honours in Biomedical and Health Sciences builds on your bachelor’s degree in science or health and enables you to explore your interests in research. If you’re interested in pursuing a PhD or becoming a qualified health professional, then Honours is an ideal pathway.
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