# DIGT07009 2019 Digital Signal Processing 302

### General Details

Full Title
Digital Signal Processing 302
Transcript Title
Digital Signal Processing 302
Code
DIGT07009
Attendance
N/A %
Subject Area
DIGT - Digital
Department
COEL - Computing & Electronic Eng
Level
07 - NFQ Level 7
Credit
05 - 05 Credits
Duration
Semester
Fee
Start Term
2019 - Full Academic Year 2019-20
End Term
9999 - The End of Time
Author(s)
Diane O'Brien, Sean Mullery
Programme Membership
SG_EELCO_B07 201900 Bachelor of Engineering in Engineering in Electronic and Computing SG_ETRON_J07 201900 Bachelor of Engineering in Electronic and Computer Engineering
Description

This module covers the application of the Discrete Fourier Transform and z-transform, Digital Signal & System analysis and Digital Filter Design.

This module is strongly geared towards implementation of DSP techniques in software.

### Learning Outcomes

On completion of this module the learner will/should be able to;

1.

Apply the Discrete Fourier Transform to appropriate problems.

2.

Represent Signals and Systems in the z-domain.

3.

Design Filters using z-plane poles and zeros.

4.

Design FIR and IIR Filters.

5.

Communicate in written form, experiments carried out on digital data.

### Teaching and Learning Strategies

The theory lectures will be split into a theory element and then problem examples that the students will attempt with the assistance of the lecturer.

The practical exercises/experiments will be carried out by the students in the laboratory or at home, they will then be assessed on their reporting of these experiments.

### Module Assessment Strategies

A written mid-term assessment will be used.

Practical assignments with written report submission.

Final Written exam.

### Repeat Assessments

A repeat written exam will be available during the repeat exam schedule.

Students may also be asked to re-submit reports on experimental work carried out during the year.

### Indicative Syllabus

Applications of the Discrete Fourier Transform.

Windowing.

The Fast Fourier Transform.

The z-Transform.

Filter Representation in the z-domain.

z-plane poles and zeros.

Design of IIR Filters.

### Coursework & Assessment Breakdown

Coursework & Continuous Assessment
40 %
End of Semester / Year Formal Exam
60 %

### Coursework Assessment

Title Type Form Percent Week Learning Outcomes Assessed
1 Written assessment Continuous Assessment Closed Book Exam 20 % Week 8 1,2,3
2 Written Report on Practical assignments Continuous Assessment Written Report 20 % OnGoing 1,3,4,5

### End of Semester / Year Assessment

Title Type Form Percent Week Learning Outcomes Assessed
1 Final Exam Written Exam Final Exam Closed Book Exam 60 % End of Term 1,2,3,4,5

Type Location Description Hours Frequency Avg Workload
Lecture Lecture Theatre Theory 2 Weekly 2.00
Laboratory Practical Computer Laboratory Practical 2 Weekly 2.00
Independent Learning Not Specified Independent Learning 3 Weekly 3.00
Total Full Time Average Weekly Learner Contact Time 4.00 Hours

Type Location Description Hours Frequency Avg Workload
Lecture Online Theory 1 Weekly 1.00
Laboratory Practical Online Practical 1 Fortnightly 0.50
Independent Learning Not Specified Independent Learning 5.5 Weekly 5.50
Total Online Learning Average Weekly Learner Contact Time 1.50 Hours

### Required & Recommended Book List

2002-11-07 Digital Signal Processing: A Practical Guide for Engineers and Scientists (IDC Technology (Paperback)) Newnes
ISBN 075067444X ISBN-13 9780750674447

In addition to the coverage of DSP design and programming techniques, this work also covers the operation and usage of DSP chips. The CD-ROM includes technical info on DSP processors from the four major manufacturers (Analog Devices, Texas Instruments, Motorola, and Lucent) and other DSP software.

2018-11-10 Digital Signal Processing: Fundamentals and Applications Academic Press
ISBN 0128150718 ISBN-13 9780128150719

Digital Signal Processing : Fundamentals And Applications, 3Rd Edition by Lizhe Tan Jean Jiang, 9780128150719 , Elsevier

### Module Resources

Non ISBN Literary Resources
 Authors Title Publishers Year Bob Meddins Introduction to Digital Signal Processing Newnes 2000 Steven W. Smith Digital Signal Processing, A Practical Guide for Engineers and Scientists Newnes 2003 T.J. Terrell and Lik-Kwan Shark Digital Signal Processing, Student Guide. MacMillan Press Ltd. 1996 Emmanuel C. Ifeachor and Barrie W. Jervis Digital Signal Processing, A Practical Approach 2nd Edition Prentice Hall 2002 John G. Proakis and Dimitris G. Manolakis Digital Signal Processing, Principles, Algorithms, and Applications 3rd Edition Prentice Hall 1996 Paul A. Lynn and Wolfgang Fuerst Introductory Digital Signal Processing John Wiley & Sons 1998 Vinay. K Ingle and John G. Proakis Digital Signal Processing, using Matlab Brooks/Cole 2000
Other Resources

None