Digital Signal Processing (10003.2)
Available teaching periods | Delivery mode | Location |
---|---|---|
View teaching periods | On-Campus |
Bruce, Canberra |
EFTSL | Credit points | Faculty |
0.125 | 3 | Faculty Of Science And Technology |
Discipline | Study level | HECS Bands |
Academic Program Area - Technology | Level 3 - Undergraduate Advanced Unit | Band 2 2021 (Commenced After 1 Jan 2021) Band 3 2021 (Commenced Before 1 Jan 2021) |
Learning outcomes
On successful completion of the unit, students will be able to:1. Explain the fundamental theories of digital signal processing;
2. Design and implement finite and infinite impulse response filters;
3. Construct low-pass, band-pass, and high-pass filters to solve signal processing problems;
4. Apply the concepts of spectrum analysis to periodic and non-periodic signals;
5. Explain Laplace transform, z-transform and discrete Fourier transform and their application in signal analysis; and
6. Develop digital signal processing systems using contemporary software and hardware techniques.
Graduate attributes
1. P站视频 graduates are professional - communicate effectively1. P站视频 graduates are professional - display initiative and drive, and use their organisation skills to plan and manage their workload
1. P站视频 graduates are professional - employ up-to-date and relevant knowledge and skills
1. P站视频 graduates are professional - take pride in their professional and personal integrity
2. P站视频 graduates are global citizens - make creative use of technology in their learning and professional lives
3. P站视频 graduates are lifelong learners - adapt to complexity, ambiguity and change by being flexible and keen to engage with new ideas
3. P站视频 graduates are lifelong learners - evaluate and adopt new technology
3. P站视频 graduates are lifelong learners - reflect on their own practice, updating and adapting their knowledge and skills for continual professional and academic development
Prerequisites
8235 Signals and Systems.Corequisites
None.Incompatible units
10095 Digital Signal Processing G.Equivalent units
None.Assumed knowledge
None.Year | Location | Teaching period | Teaching start date | Delivery mode | Unit convener |
---|---|---|---|---|---|
2024 | Bruce, Canberra | Semester 1 | 05 February 2024 | On-Campus | Dr Maryam Ghahramani |
2025 | Bruce, Canberra | Semester 1 | 03 February 2025 | On-Campus | Dr Maryam Ghahramani |
Required texts
We will not follow any text book chapter by chapter. The books mentioned below are for reference and further reading to develop a thorough understanding of the material.
Digital Signal Processing by Oppenheim, Alan V., and Ronald W. Schafer. Prentice Hall, 1975. ISBN: 9780132146357.
DSP First: A Multimedia Approach by James H. McClellan, Ronald W. Schafer, Mark A. Yoder
Signal Processing for Communications by Paolo Prandoni and Martin Vetterli
Submission of assessment items
Extensions & Late submissions
All the assessments will need to adhere to a particular format as specified on the unit's Canvas site and submitted electronically via Canvas.
Detailed rubrics will be provided for each assessment.
Special assessment requirements
To obtain a particular grade in this unit, it is necessary that there are no outstanding submissions at the end of week 14. The unit convener reserves the right to question students orally on any of their submitted work.
In order to pass this unit, students need to:
1- Submit all three main assessment items: first assessment, research paper, and final assessment.
and
2- Achieve minimum 50% of combined weighted marks of all assessment items
and
3- Achieve Minimum 50% of the final assessment.
All assessment items will receive a numerical mark. The final grade will be determined as a weighted average of the individual assessment items.
To be awarded a particular grade in DSP, students must meet the overall requirements, individual requirements for each assessment item set out in the table below. All grades are conditional upon the following minimum requirements:
Grade |
All assessment |
Pass |
Minimum 50% of combined weighted marks of all assessment items |
Credit |
Minimum 65% of combined weighted marks of all assessment items |
Distinction |
Minimum 75% of combined weighted marks of all assessment items |
High Distinction |
Minimum 85% of combined weighted marks of all assessment items |
The unit convenor reserves the right to question students on any of their submitted work for moderation and academic integrity purposes, which may result in an adjustment to the marks awarded for a specific task.
Academic integrity
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 P站视频Learn (Canvas) through the 'Academic Integrity and Avoiding Plagiarism' link in the .
Use of Text-Matching Software
The P站视频 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.
Learner engagement
Expected Average Student Workload: * denotes an assessable item
- Lectures: 12 x 2h =24h
- Tutorials/Computer Labs 10x2h =20h
- Preparation (lectures, tutorials, computer labs, reading) 12 x 3h =36h
- * Mid-semester Assessment =15h
- * Research Paper =25h
- * Final Assessment =30h
Total 150 hours
150 hours
Participation requirements
To get the most out of unit, students are highly recommended to actively participate in the lectures as well as the tutorials.
Tutorial and Lab Attendance is compulsory and will count towards 5% of the total mark.
Required IT skills
Basic Programming Skills in Matlab, Python, and use of Arduino.
In-unit costs
Students might consider purchasing reference textbooks which can cost $100-$400, depending upon the condition of the book (new, used) and number of reference books.
One of the reference text books is freely available on Canvas.
Work placement, internships or practicums
None
- Semester 1, 2024, On-Campus, P站视频 - Canberra, Bruce (218239)
- Semester 1, 2023, On-Campus, P站视频 - Canberra, Bruce (212677)
- Semester 1, 2022, On-Campus, P站视频 - Canberra, Bruce (205623)
- Semester 1, 2021, On-Campus, P站视频 - Canberra, Bruce (200229)
- Semester 1, 2020, On-Campus, P站视频 - Canberra, Bruce (193349)
- Semester 1, 2019, On-Campus, P站视频 - Canberra, Bruce (185159)
- Semester 1, 2018, On-Campus, P站视频 - Canberra, Bruce (182117)