On this course, you’ll gain practical, theoretical and creative experience of sound engineering, music production and audio technology.
You’ll explore the design, manipulation and production of audio across many platforms, using our state-of-the-art audio-post recording, radio and TV studios to study a mix of sound engineering and theory modules.
The aim of the course is to develop the skills that you’ll need to create and deliver professional audio, whilst under pinning these skills with a sound theoretical background.
94% of our postgraduates go on to employment and/or further study within six months of graduating.DLHE 2009 and 2010
This course entails both practical based and theory modules. The modules are delivered in the recording studios, the audio technology suite, audio post production suite and lecture theatres.
MSc (one year full-time or up to three years part-time)
PgDip (nine months full-time or 18 months part-time)
MSc (16 months full-time)
PgDip (one year full-time or up to two years part-time)
Teaching and learning involves a mix of lectures and practical sound engineering work, involving individual and group learning, There is an emphasis on motivated students' self-study.
Assessment involves a mixture of practical work, report writing and project work. By the end of the course students will have built up a substantial portfolio of audio, video and new media work.
Assessment is approximately divided across the course as follows:
This degree is based in MediaCityUK,the new home for the BBC, ITV, Coronation Street and parts of the University of Salford. MediaCityUK is located at Salford Quays on the banks of Manchester's historic ship canal. The University has the first four floors of a new, purpose built facility that looks over the water to The Lowry theatre, Imperial War Museum North and the new Coronation Street set. ITV occupy the floors above us, with the three BBC buildings on one side of us and Peel Media Studios on the other.
A number of BBC departments are based at MediaCityUK, having moved from London, including BBC Breakfast, BBC Children's, BBC Radio 5 Live, BBC Future Media and Technology, BBC Learning, BBC Sport and BBC Academy. All of the BBC Manchester operations have also moved to MediaCityUK, including BBC Religion and Ethics, Current Affairs and the BBC Philharmonic.
Here is a summary of our relevant facilities at MediaCityUK:
On the main campus, we also have a Pro Tools equipped studio recording complex consisting of four control rooms and recording areas. Please see this brochure for more detailed information brochure.
The wide range of skills provided on this course will enhance your employability. Possible career paths include: audio manufacturer research and design, broadcast engineer in audio for radio or TV, audio and visual design and installation, education, interactive media and sonic arts.
Possible career paths include:
Staff have strong links with industry either through collaborative R&D projects with industry through the Acoustics Research Centre and our commercial test laboratories. Our research department is a Centre of Excellence for BBC Research.
Some students could go on to study a PhD at our world-class Acoustics Research Centre. We have been carrying out acoustics and audio research for over 30 years. Our research is funded by research councils, government bodies, and industry. It has fed into audio products that companies make and sell worldwide, as well as regulations and standards used in the UK, Europe and beyond. We are also involved in public engagement - getting more people aware of and interested in acoustic science and engineering.
Fascinated by the science of sound? Southampton Solent University’s applied acoustics masters programme can provide you with the skills and knowledge required to work in a range of acoustics fields. Suitable graduate destinations include consultancy, engineering, environmental health, built environment work or further study at PhD level.
Taught by experts with strong research and industry backgrounds, MSc Applied Acoustics offers students the chance to gain hands-on experience with the latest measurement, simulation and modelling technology. Students also study relevant scientific principles such as how humans respond to sound, acoustic physics, and how sound interacts with our environment.
We have excellent links with the Institute of Acoustics (IoA) and the Association of Noise Consultants, as well as a number of commercial companies across the sector. These include KP Acoustics, with whom we have a formal partnership for work placement and mentoring. The course has also been designed to meet the requirements for professional IoA registration.
The University also offers access to specialist facilities for the testing and demonstration of acoustic and electro-acoustic principles, including a hemi-anechoic chamber, audio isolation booths for sound recording and audiometric testing, and the University’s own digital 3D cinema.
Acoustics offers an intellectual and practical challenge across a wide range of sectors, from manufacturing or construction to architecture, telecommunications or various engineering industries.
Acousticians could be involved in designing and planning exciting new infrastructure projects such as airports, motorways and sports arenas, or could be responsible for making airplanes and cars quieter, or improving the sound quality of a television or computer. Acousticians are also involved in the design of new buildings – from flats and houses, to skyscrapers and concert halls.
This course is ideal for students with an engineering or technology-related undergraduate degree, or who have chartered environmental health practitioner status or equivalent.
Students who are looking to gain hands-on practical experience using the latest acoustics technology will be well-suited to the course.
Core taught units:
Core project units:
Three options from:
Please note: Not all optional units are guaranteed to run each year.
To aid study and help perfect techniques, students have full access to the University’s laboratory and studio facilities. Students will be able to undertake acoustic measurement and laboratory projects using a wide range of test equipment such as sound level meters, a 16-channel data acquisition system, head and torso simulators, a laser vibrometer and ambisonic microphones. Students will also have access to cutting-edge simulation and modelling software, including MATLAB, NI Labview, CadnaA, CATT Acoustic, and EASE.
Solent has a 10-year history of successful graduate employment in the acoustic industries. Solent graduates have gone on to work in acoustics roles for Apple (acoustic engineer), Accon UK, Samsung (audio engineer), Cole Jarman Associates, Hilson Moran, Mott Macdonald, KP Acoustics, Hann Tucker Associates, Hoare Lea, Vangardia Consulting and Clarke Saunders Associates, among others.
We have excellent links with the Institute of Acoustics (IoA) and the Association of Noise Consultants, as well as a number of commercial companies across the sector. As a result of the course team’s strong industry connections, students have access to guest speakers from a range of relevant organisations. Previous speakers have included Mark Murphy and Jim Griffiths (Vanguardia Consulting), Nicholas Jones (Hilson Moran) and Phil McIlwain (Westminster City Council).
The Professional Skills and Practice unit involves organising your own work placement with an external company, supported by staff and making use of the course team’s industry contacts.
There are a number of opportunities for work experience with professional partners and contacts, as well as through the University’s own Solent Acoustics consultancy.
Past students have worked on a range of projects, including for TruckFest, Isle of Wight Festival, Westminster City Council and KP Acoustics.
The MSc in Digital Audio Engineering is a unique and innovate course designed to give you advanced knowledge and skills related to digital audio, which can be found in every area of modern technology and culture. On this course you will gain the creative, investigative and critical thinking abilities to apply your knowledge and skills to real-world situations and problems, such as audio analysis, effects and synthesis plug-ins, digital controllers, installation and embedded systems for public spaces.
Digital audio is part of all aspects of modern life. This includes areas such as music and sound production, media and gaming, 3D spatial audio, mobile devices and streaming, online media and the internet of things (IoT), plus many others. The need for people to have the necessary technical and creative abilities to enable and progress how digital audio is embedded in all these areas and many more, is significant.
The course promotes an independent and self-motivating approach to learning by encouraging you to develop real-world technical expertise to effectively innovate, design, develop and operate a range of digital audio systems. Upon graduation you will be prepared as a professional, equipped with the necessary theoretical and practical knowledge to develop a successful career as a digital audio engineer.
The course provides you the opportunity to engage in a wide range of digital audio application developments and potential collaborations with postgraduate students in other areas of the university. These include music technology, software engineering other subject areas in the School of Computing and Engineering and the London College of Music.
The development of learning skills includes processes and activities such as critical appraisal, reflection, literature searching, information technology, peer review, group work, presentation, research, practice/professional skills, note-taking, writing skills, electronic information retrieval, communication skills and independent study at home. These skills will be an integral part of learning courses.
The course modules will enable you to evidence your ability to combine different but related audio engineering subjects in an applied manner. Students from a variety of undergraduate backgrounds in related subjects will be able to enrol and succeed on the course. The type of undergraduate courses students may join the MSc from include:
As would be expected at masters’ level, there is an appropriate balance of theory and practice, and in order to be successful students will need to demonstrate high levels of analytical, critical and reflective skills alongside a professional level of practical skills and knowledge. Teaching and learning on the programme is underpinned by the research and development activities of the course team.
Click the following link for information on how to apply to this course.
Information about scholarships and bursaries can be found here.
The course is aimed equally at composers of electronic music in the traditional sense, and contemporary artists who may combine the role of composer with producer, engineer, musician and DJ. London College of Music (LCM) at the University of West London is at the forefront of the academic study of music technology in general - and popular electronic music composition in particular.
The course encompasses a broad range of electronic music, from popular electronic dance music styles to art forms such as electroacoustic music. It assumes you have a level of competence in composition or music sequencing and production. Composition studies include one-to-one tutorials in an area of electronic music that you will negotiate with your lecturer.
You will also examine the history and concepts of electronic music, the creation of sound installations and live performances, together with options that include the theory and practice of sequencing, sound synthesis, sampling, production techniques and the use of Max/MSP.
This course helps you build a wide range of skills, knowledge and creative strategies essential for a successful career in the contemporary, fast-changing music industry - or as a springboard to further postgraduate study at PhD level.
Plus one option from:
…and one option from:
The department's extensive research in this subject area means our teaching is informed directly by the world's most up-to-date ideas on the academic study of record production. Also, our teaching staff are renowned for their professional expertise.
Teaching involves a combination of lectures, practical workshops, seminars and tutorial discussions. Our teaching rooms are equipped with ProTools HD systems, Audient mixing consoles and C24 control surfaces, and lectures involve frequent practical demonstrations and examples.
The contact hours for the course are concentrated into two days for full-time and one day for part-time students. For the rest of week you will book your own studio and computer time to complete your assignments and develop your composing skills, network, create music with other LCM students and engage in self-directed study. The course runs for a complete year - normally September to September - in full-time mode and two years for part-time.
This course will equip you with an enviable set of skills that will enable you to succeed in the fast-changing music industry.
Some examples of the professional roles graduates have progressed to after completing the course include:
• Sound Designer
After completing the course you can continue your studies with either a PhD or DMus at the University of West London.
Click the following link for information on how to apply to this course.
Information about scholarships and bursaries can be found here.
This is a high quality course aimed at imparting advanced knowledge across a broad range of Computer Science and offering training in advanced skills. It is suitable for those who wish to enhance their computing skills in order to improve their contribution to IT-related industry or to pursue R&D in academia or industry.
A student following the Advanced Computer Science course chooses two from about a dozen themes, each of which combines two related course units that build on top of each other. Certain combinations are integrated into specialised 'pathways' . A student who opts to follow the pathways will have the pathway specialism included in their degree certificate.
Computational thinking is becoming increasingly pervasive and is informing our understanding of phenomena across a range of areas; from engineering and physical sciences, to business and society. This is reflected in the way the Manchester course is taught, with students able to choose from an extremely broad range of units that not only cover core computer science topics, but that draw on our interdisciplinary research strengths in areas such as Medical and Health Sciences, Life Sciences and Humanities.
Lectures and seminars are supported by practical exercises that impart skills as well as knowledge. These skills are augmented through an MSc project that enables students to put into practice the techniques they have been taught throughout the course.
A student following the Advanced Computer Science course chooses two from about a dozen themes, each of which combines around four related course units that build on top of each other. Certain combinations are integrated into specialised pathways
Practical support and advice for current students and applicants is available from the Disability Advisory and Support Service. Email: [email protected]
The MSc in Advanced Computer Science has an excellent record of employment for its graduates. Opportunities exist in fields as diverse as finance, films and games, pharmaceuticals, healthcare, consumer products, and public services - virtually all areas of business and society. Our courses are considered among the best in the country and our graduates are actively targeted for the very top jobs in industry and academia. The MSc is also a route to further study at research level, or to careers in industrial or academic research.
We maintain close relationships with potential employers and run various activities throughout the year, including career fairs, guest lectures, and projects run jointly with partners from industry. This is managed by our Employability Tutor; see the School of Computer Science's employability pages for more information.
This programme is CEng accredited and fulfils the educational requirements for registration as a Chartered Engineer when presented with CEng accredited Bachelors programme.