Our MA Interior Design course enables you to develop an individual approach to spatial design within a stimulating, creative and supportive environment.
This degree provides you with a launchpad to potential higher level interior design careers within a diverse range of subjects. These include museum and exhibition design, design for film, television and digital games and brand interpretation for retail, leisure or promotional events.
An emphasis on ecological issues and processes is also a prominent aspect of this course, and underpins all aspects of the course.
You'll explore your area of interest to an advanced level, through establishing new spatial paradigms that build on your existing knowledge. Our course, at UCA Canterbury, combines theoretical and practical skills, and encourages engagement with industry at all levels.
In-depth research into design processes and technologies, along with related work placement opportunities, will prepare you for new career directions. Your project work will be supported by ongoing staff research into sustainability, architecture, design-related digital technologies, experiential environments and brand communication.
You'll be taught through tutorials, seminars, self-directed study in relation to your project proposal, work-in-progress reviews and visits or references to sites of local and international interest.
Part-time students are normally taught on a Tuesday but sometimes field trips, study visits or other events take place on other days of the week. You should check before enrolling if you have concerns about the days your course will be taught on.
We've got extensive contacts across the range of interior design disciplines. Live projects, research analysis and feasibility studies will draw on our wide range of contacts and associations.
Connections include specialists in the related fields of audio-visual technologies, lighting design and interactive design.
Recent guest lecturers have included:
-David Callcott, CADA Design, retail and leisure design consultants (London and Hyderabad, India)
-Emma Vane, Production Designer for Atonement, the Harry Potter series, Tinker Tailor Soldier Spy, and Captain America: The First Avenger
-Finlay White, ModCell, sustainable construction
-Mick Pearce, award-winning international architect (Title: Bio-mimicry and the 3rd industrial revolution)
-Phil Hughes, Ralph Appelbaum Associates, museum and exhibition designers (London, New York, Beijing)
-Uwe R. Brückner, Atelier Brückner, exhibition design (Stuttgart, Germany).
Career opportunities exist within design or architectural consultancies in retail, leisure, exhibition, office, hotel, residential and cruise ship design, as well as in the fields of design management, interior or film-set design.
Our course has a strong ecological focus with opportunities for engaging with both the theoretical and practical aspects of real-world sustainability.
Visit our Postgraduate Virtual Media Space to find out more about our courses, see what it's like to study at UCA and gain access to our campus virtual tours.
There are more than 100,000 vessels in the world’s fleet – designed, built, maintained and managed by naval architects and marine engineers. It’s a growing sector, and it’s growing here in BC. UBC is the only centre for naval architecture and marine engineering study on the Pacific Coast of North America. The university’s MEL in Naval Architecture & Marine Engineering is a unique graduate program that empowers you to develop the sector-relevant cross-disciplinary technical skills in demand by top employers.
The Master of Engineering Leadership (MEL) in Naval Architecture & Marine Engineering is an intensive one-year degree program intended for engineers three to five years or more into their careers. This program combines the engineering and physics of ship design with broad business and leadership training. Strong leadership and business skills are essential for career success. As we developed this program, our industry partners told us that they were looking for engineers who combined sector-specific technical skills with strong leadership skills. 60 per cent of your classes will focus on your technical specialization and will include a technical work experience placement in the summer. The remaining 40 per cent are leadership development courses that will enhance your business, communication and people skills. Delivery of the management and leadership courses are in partnership with UBC's Sauder School of Business.
For more recent engineering graduates, UBC also offers a more technical Master of Engineering degree in Naval Architecture and Marine Engineering.
The MEL in Naval Architecture & Marine Engineering degree was developed in close collaboration with industry partners, who told us they need to hire leaders with cross-functional technical and business skills to develop innovative solutions, manage teams and direct projects. The combination of technical expertise and leadership development makes the MEL in Naval Architecture & Marine Engineering program unique and highly relevant in today’s business environment. UBC’s Vancouver campus offers a strategic coastal setting and state-of-the-art research and learning facilities. Program faculty members also maintain vigorous links to the regional marine industry.
To complement your academic studies, professional development workshops, delivered by industry leaders, are offered throughout the year-long program. These extra-curricular sessions cover a range of topics such as:
-Giving and receiving feedback
-Learning how to deliver a successful pitch
The workshops also provide opportunities to network with professionals from a wide range of industries, UBC faculty and students in the MEL and MHLP programs.
Our graduates will be in high demand locally, nationally and internationally by employers seeking technical experts who can also manage and lead teams. Job opportunities include working as a ship surveyor, in a shipyard engineering position, as a design engineer and as a class society representative.
There is a growing need for talented engineers who can bridge the gap between technical staff and business leaders. Graduates of the MEL program will be highly sought after for their ability to bridge this divide and for their unique combination of leadership and technical sector-specific skills.
This MSc programme is suitable for engineering, mathematics, and physical sciences graduates who wish to specialise in the analysis, design and performance of yachts, small craft, and other high-performance vessels. Engineers from the world-renowned Wolfson Unit for Marine Technology and Industrial Aerodynamics contribute to the teaching of this programme. No prior specialised knowledge of the discipline is required and an introductory module called Fundamentals of Ship Science is provided in the programme.
Compulsory modules: Fundamentals of Ship Science; MSc Research Project; Yacht and High Performance Craft;Marine Law and Management; Sailing Yacht and Powercraft Design; Marine Safety and Environmental Engineering
Optional modules: Finite Element Analysis in Solid Mechanics; Manufacturing Materials; Applications of Computational Fluid Dynamics; Advanced Sensors and Condition Monitoring; Advances in Ship Resistance and Propulsion ; Ship Manoeuvring and Control; Marine Hydrodynamics; Marine Structures; Design Search and Optimisation; Composite Engineering Design and Mechanics; Failure of Materials and Components; Renewable Energy from Environmental Flows
This MSc programme is suitable for engineering, mathematics, and physical sciences graduates. It covers the core subjects of naval architecture, and provides an in-depth knowledge of the design and analysis of marine craft and structures, within the marine environment. No prior specialised knowledge of the discipline is required and an introductory module called Fundamentals of Ship Science is provided in the programme.
Compulsory modules: Fundamentals of Ship Science; MSc Research Project; Advances in Ship Resistance and Propulsion; Marine Safety and Environmental Engineering; Marine Structures in Fluids; Marine Law and Management
Optional modules: Finite Element Analysis in Solid Mechanics; Yacht and High Performance Craft; Applications of Computational Fluid Dynamics; Numerical Methods; Ship Manoeuvring and Control; Marine Hydrodynamics; Marine Structures; Design Search and Optimisation; Failure of Materials and Components; Renewable Energy from Environmental Flows; Offshore Engineering and Analysis
This MSc programme is suitable for engineering, mathematics, and physical sciences graduates who wish to design and conduct structural and hydrodynamic analyses for offshore engineering of fixed and floating structures. It will provide students with an understanding of maritime robotics for oceanography, offshore exploitation, and disaster response. No prior specialised knowledge of the discipline is required and an introductory module called Fundamentals of Ship Science is provided in the programme.
Compulsory modules: Fundamentals of Ship Science; MSc Research Project; Marine Law and Management; Finite Element Analysis in Solid Mechanics; Marine Safety and Environmental Engineering; Offshore Engineering and Analysis; Marine Structures in Fluids; Maritime Robotics
Optional modules: Applications of Computational Fluid Dynamics; Thermofluid Engineering for Low Carbon Energy; Advances in Ship Resistance and Propulsion; Design Search and Optimisation; Marine Hydrodynamics; Marine Structures; Renewable Energy from Environmental Flows; Ship Manoeuvring and Control
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.
This MSc programme is suitable for engineering, mathematics, and physical sciences graduates, and focuses on computational techniques, their applications in predictions of fluid behaviour, and its interactions with structure. No prior specialised knowledge of the discipline is required and an introductory module called Fundamentals of Ship Science is provided in the programme.
Compulsory modules: Fundamentals of Ship Science; MSc Research Project; Applications of computational Fluid Dynamics; Advances in Ship Resistance and Propulsion; Marine Hydrodynamics; Marine Safety and Environmental Engineering
Optional modules: Finite Element Analysis in Solid Mechanics; Advanced Computational Methods I; Turbulence: Physics and modelling; Flow Control; Ship Manoeuvring and Control; Marine Structures; Design Search and Optimisation; Offshore Engineering and Analysis; Marine Structures in Fluids