Digital Audio Engineering MSc

The Mathematics of Signal Processing module introduces you to advanced mathematical methods for analysing and processing signals and systems.

The module will provide the basics of signal and systems theory, including the concepts of signal dimensionality, analogue and digital domains, main properties and applications. Matlab software will be introduced and taught as a tool for exploring the various theoretical, analytical and experimental aspects of the syllabus.

This module provides essential knowledge and the mathematical tools needed for the study of digital signals and systems. Advanced mathematical transformations and design principles will provide a solid background for you to proceed on to more specific applications in audio engineering, music technology, acoustics and communication engineering.

This module aims to allow you to develop advanced skills in computer programming and software development. The module introduces the fundamentals of computer science and software engineering and investigates in-depth the concept of object-oriented programming. You will implement these skills in the C/C++ programming language and apply them to digital audio. The module also provides an overview of the available programming languages and investigates their characteristics and advantages when it comes to digital audio applications

The aim of this module is to allow you to apply advanced programming techniques and knowledge in digital signal processing in real-world audio engineering applications and scenarios. The module introduces a variety of known problems related to the digital audio industry and outlines the methods and practices for their solutions.

On this module you will discover how to apply advanced theoretical thinking and investigative skills to identify, discuss, and analyse new and emerging types of digital audio control and transmission within the professional world.

To successfully conceive, plan, execute and evaluate any task or project in an engineering context, it is necessary to be able to initiate research in a far-reaching manner. Being able to identify and evaluate sources, extract relevant information and present a critical stance and develop a critical commentary as well as identify significant questions, interesting topics and original ideas should be an outcome of any research process.

The module will help you identify and practice academic styles and processes related to engineering and provide models for research through the exploration of case studies.  You will also be provided with an overview of professional institutions, publications and the skills needed for publication.

This module aims to give you the opportunity to investigate an engineering problem within the audio engineering discipline. You will have the opportunity to devise, design and implement a solution to the given engineering problem based on innovative thought and careful planning, within time, sustainability, budgetary and legal constraints. Additionally, you will have to build upon your project management and communication skills when dealing with known and unpredicted stakeholders. Your project will be expected to cover an appropriate area of audio engineering, which could include the following topic areas:

• Transmission and Broadcasting
• Archiving, restoration, and digital libraries
• Audio for games
• Audio for telecommunications
• Audio forensics
• Audio recording and mastering systems
• Audio electronics
• Psychoacoustics and audio perception
• Active noise control
• Automotive audio
• Coding of audio signals
• Fibre optics for audio
• Hearing and hearing loss prevention
• High resolution audio for music and server-based audio
• Network audio systems
• Semantic audio analysis
• Signal processing for audio
• Spatial audio (3D)