Teaching Responsibility

LJMU Schools involved in Delivery:

LJMU Partner Taught

Learning Methods

Lecture
Practical

Module Offerings

6501ELEMM-APR-PAR

Aims

This module is intended to provide students with a good appreciation of the mathematical concepts necessary to apply digital signal and image processing algorithms to a range of engineering problems.

Module Content

Outline Syllabus:Signals and Systems - Foundations, Architecture Requirements and Characteristics Use of MATLAB Fundamentals – Linear Systems, Convolution and Properties of Convolution Transforms – Fourier: CTFT, DTFT, DFT, FFT; Laplace and Z-transforms Digital Filters - Basic Concepts Finite Impulse Response filters (FIR) - Design, Fourier Series Approximation Analogue Prototypes - Butterworth, Chebyshev, Elliptic; Analogue-To-Analogue Transforms Infinite Impulse Response filters (IIR) - Design, Bilinear, Impulse Invariant Transforms Digital Filters - Implementation, Algorithms & Finite Word Effects ADCs & DACs - Sample and Hold, Antialiasing Multirate Signal Processing – Interpolation and Decimation Time Frequency Analysis – Short term Fourier series, Wavelets, Filter-Banks 2D Signal Processing – Representation of images, image compression, 2D transforms
Additional Information:This module will provide students with a sound grasp of the theory and applications of modern signal and image processing.

Assessments

Exam
Report