Introduction to Computer Engineering G (10096.2)
|Available teaching periods||Delivery mode||Location|
|View teaching periods|| On-Campus
|| UC - Canberra, Bruce
|0.125||3||Faculty Of Science And Technology|
|Discipline||Study level||HECS Bands|
|Academic Program Area - Technology||Graduate Level|| Band 2 2021 (Commenced After 1 Jan 2021)
Band 3 2021 (Commenced Before 1 Jan 2021)
An overview of robotics is introduced in the second half of the unit by having an overall understanding of the basic structure of a microcontroller. In addition, examples of some controlling platforms including their basic programming are analysed. The interfacing process via microcontroller is presented by looking at drivers and servos.
A final analysis aims to provide a clear understanding of how combining all the pieces together within a digital system project leads to the completion of a servo-controlled system.
This unit is co-taught with Introduction to Computer Engineering, 8223.
Learning outcomesOn successful completion of this unit, students will be able to:
1. Have an appreciation of the nature of the engineering profession by being able to understand, confidently manipulate and utilise discrete mathematical entities;
2. Deal with different systems of numbers and codes and formulate relevant relationships between them;
3. Describe, analyse, and synthesise simple and more detailed logic circuits;
4. Develop an operational understanding of the elements of good design practices by analysing and designing combinational and sequential logic circuits;
5. Verify and appraise circuit operation by using CAD tools and hands-on laboratories; and
6. Integrate the different pieces of knowledge acquired in this unit to synthesise a robotic application through the successful completion of a digital system project.
Graduate attributes1. UC graduates are professional - use creativity, critical thinking, analysis and research skills to solve theoretical and real-world problems
2. UC graduates are global citizens - make creative use of technology in their learning and professional lives
3. UC graduates are lifelong learners - adapt to complexity, ambiguity and change by being flexible and keen to engage with new ideas
Incompatible units8223 Introduction to Computer Engineering.
|Year||Location||Teaching period||Teaching start date||Delivery mode||Unit convener|
|2023||UC - Canberra, Bruce||Semester 2||31 July 2023||On-Campus||Dr Shahid Hussain|
Core book: Tocci, Widmer & Moss: Digital Systems: Pearson New International
Edition: Principles and Applications (11e)
Epp, S. 2011, Discrete Mathematics with Applications, Brooks/Cole, Toronto.
Available for purchase in the University's Co-op bookshop. A limited number of copies of this book are also available from the library.
Submission of assessment items
Special assessment requirements
An aggregate mark of 50% is required to pass the unit.
Once the above minimum requirements are met, the following table shows the final grades corresponding to the Aggregate marks received.
Minimum 50% of Aggregate Mark
Minimum 65% of Aggregate Mark
Minimum 75% of Aggregate Mark
High Distinction (HD)
Minimum 85% of Aggregate Mark
The unit convener reserves the right to question students orally on any of their submitted work.
Students have a responsibility to uphold University standards on ethical scholarship. Good scholarship involves building on the work of others and use of others' work must be acknowledged with proper attribution made. Cheating, plagiarism, and falsification of data are dishonest practices that contravene academic values. Refer to the University's Student Charter for more information.
To enhance understanding of academic integrity, all students are expected to complete the Academic Integrity Module (AIM) at least once during their course of study. You can access this module within UCLearn (Canvas) through the 'Academic Integrity and Avoiding Plagiarism' link in the Study Help site.
Use of Text-Matching Software
The University of Canberra uses text-matching software to help students and staff reduce plagiarism and improve understanding of academic integrity. The software matches submitted text in student assignments against material from various sources: the internet, published books and journals, and previously submitted student texts.
Suggested average student workload:
Lectures (2h lecture + 0.5h preparation) 12h x 2h + 6h = 30h
Laboratories (2h lab + 3h preparation) 10h x 2h + 30h = 50h
Laboratory Assignments (Part 1 + Part 2 ) 10h + 10h = 20h
Digital Systems Project (preparation + report) = 40h
Mid semester test (incl. preparation) = 10h
Total: 150 Hours
Student participation in lectures, tutorials, laboratories, and online activities will enhance the student's understanding of the unit content and therefore the quality of assessment responses. Lack of participation may result in the student's inability to satisfactorily pass assessment items.
Required IT skills
Students should make themselves familiar with PC usage. In particular, it is expected that students are able to manipulate files (copying, pasting,create and manipulate ZIP files) and install / run software in Linux, Mac, or Windows (XP, 7, 8) operating systems. Basic familiarity in a programming language (e.g. C++, Java, Python) will be useful but not compulsory.
This unit involves online meetings in real time using the Virtual Room in your UCLearn teaching site. The Virtual Room allows you to communicate in real time with your lecturer and other students. To participate verbally, rather than just typing, you will need a microphone. For best audio quality we recommend a microphone and speaker headset. For more information and to test your computer, go to the Virtual Room in your UCLearn site and 'Join Course Room'. This will trigger a tutorial to help familiarise you with the functionality of the virtual room.
Work placement, internships or practicums