• University of Bristol Featured Masters Courses
  • University of Derby Online Learning Featured Masters Courses
  • University of Edinburgh Featured Masters Courses
  • Aberystwyth University Featured Masters Courses
  • Jacobs University Bremen gGmbH Featured Masters Courses
  • Northumbria University Featured Masters Courses
  • University of Leeds Featured Masters Courses

Postgrad LIVE! Study Fair

Birmingham | Bristol | Sheffield | Liverpool | Edinburgh

Cranfield University Featured Masters Courses
University of Bedfordshire Featured Masters Courses
University of Cambridge Featured Masters Courses
University College London Featured Masters Courses
University of Leeds Featured Masters Courses
0 miles
Engineering×

University of Southampton, Full Time MSc Degrees in Engineering

We have 36 University of Southampton, Full Time MSc Degrees in Engineering

  • Engineering×
  • University of Southampton×
  • MSc×
  • Full Time×
  • clear all
Showing 1 to 15 of 36
Order by 
Offshore exploration has become crucial with the expanding demand for energy resources. Read more

Offshore exploration has become crucial with the expanding demand for energy resources. The MSc Maritime Engineering Sciences / Offshore Engineering course will look at the design and analysis of offshore and marine structures as well as the latest technologies in disaster response, and it is ideally suited to graduates seeking to enter or specialise in Maritime Engineering.

Introducing your degree

Maritime Engineering Science is an MSc course designed for graduates, or similarly qualified, with an engineering, scientific or mathematical background, who desire to pursue a career in maritime sector. An introductory module is provided at the start to give students the fundamental knowledge necessary for them to succeed in the course.

This MSc Maritime Engineering Science / Offshore Engineering course allows students to design and undertake the structural and hydrodynamic analyses for offshore engineering of fixed and floating structures as well as the understanding of design feasibility and the operating climate.

Overview

Offshore engineering is an expanding sector with an even greater demand for skilled engineers. Your compulsory modules will give you a detailed knowledge of offshore engineering and analysis and a professional understanding of maritime robotics for oceanography, offshore exploitation and disaster response.

Your option modules will enable you to broaden your knowledge to cover such topics as renewable energy from environmental flows, design optimisation and thermofluid engineering for low carbon energy.

You will tap into our Southampton Marine and Maritime Institute research network and undertake a final research project using our world-class maritime engineering facilities. The project will involve experimental and practical study and the completion of a dissertation.

View the specification document for this course

Career Opportunities

The maritime sector provides many and varied career opportunities in engineering and project management related roles. Maritime Engineering Science graduates are in strong demand with good starting salaries and excellent career progression opportunities.

Our graduates work across many different organisations. The Solent region around Southampton is the main UK hub for the maritime sector with organisations such as Lloyd’s Register, Carnival, BMT Nigel Gee, Maritime and Coastguard agency and many others based nearby. Organisations such BAE Systems, QinetiQ and Babcock support primarily the defence sector and employ a good number of our graduates. The offshore and marine renewable developments are offering excellent prospects both to work in the UK (locally, London or Aberdeen) or worldwide in places such as Singapore, Houston or Perth, etc.



Read less
Surface engineering, coatings and tribology are all essential in understanding the science of interaction between the surface of a material and its environment in order to control its use, performance and operational lifetime. Read more

Surface engineering, coatings and tribology are all essential in understanding the science of interaction between the surface of a material and its environment in order to control its use, performance and operational lifetime. This course provides a thorough professional knowledge of surface engineering and coatings, which includes advanced understanding of tribology, wear, corrosion, electroplating, composite coatings, and vapour deposition.

Introducing your degree

Led by world-class experts from the National Centre for Advanced Tribology at Southampton (nCATS), this masters course provides a comprehensive and academically challenging exposure to modern issues ranging from the traditional concepts of friction and wear to the cutting edge developments in surface engineering.

Overview

This one-year industry-led course will explore cutting edge developments in tribology and surface engineering. You will develop an advanced understanding of wear, corrosion, electroplating, composite coatings and vapour deposition.

The course is led by world-class experts from the National Centre for Advanced Tribology at Southampton (nCATS), providing you with a professional insight into surface engineering.

The year is divided into two semesters. You will study core modules, as well as having the opportunity to select specialist modules, from Advanced Sensors and Condition Monitoring to Biomaterials.

Practical sessions form a large part of the course. You will design, operate and test tribological systems and assess the sustainability and limitations of machines. The last four months will be spent working on an industry-relevant research project. You will also benefit from nCATS state-of-the-art facilities and its many partnerships with industry.

The course is designed for those with a mechanical engineering or scientific background. Careers in surface engineering and coatings are available in a range of engineering industries; from automotive, aerospace and oil and gas, to marine and medical engineering.

View the specification document for this course



Read less
Introducing your degree. Maritime Engineering Science is an MSc course designed for graduates, or similarly qualified, with an engineering, scientific or mathematical background, who desire to pursue a career in maritime sector. Read more

Introducing your degree

Maritime Engineering Science is an MSc course designed for graduates, or similarly qualified, with an engineering, scientific or mathematical background, who desire to pursue a career in maritime sector. An introductory module is provided at the start to give students the fundamental knowledge necessary for them to succeed in the course.

This masters in Maritime Engineering Science / Marine Engineering one-year course enables students to specialise in marine engineering systems on board ships and offshore platforms that facilitate their functional capability.

Overview

Understanding how marine systems work is essential to their efficient design and operation. You will learn to apply advanced control design techniques and enhance your knowledge of instrumentation and sensors. You will also learn to analyse and design advanced power, propulsion, heating and cooling systems using thermodynamic principles.

The year is divided into two semesters. Each semester, in addition to a set of specialist modules, you have the opportunity to select option modules including fuel cells, batteries and maritime robotics. In the last four months, you will focus on research. You will complete a major research project and take advantage of our world-class maritime engineering facilities to perform your experimental work. You will also learn the broader principles of marine safety, law and management.

View the specification document for this course

Career Opportunities

The maritime sector provides many and varied career opportunities in engineering and project management related roles. Maritime Engineering Science graduates are in strong demand with good starting salaries and excellent career progression opportunities.

Our graduates work across many different organisations. The Solent region around Southampton is the main UK hub for the maritime sector with organisations such as Lloyd’s Register, Carnival, BMT Nigel Gee, Maritime and Coastguard agency and many others based nearby. Organisations such BAE Systems, QinetiQ and Babcock support primarily the defence sector and employ a good number of our graduates. The offshore and marine renewable developments are offering excellent prospects both to work in the UK (locally, London or Aberdeen) or worldwide in places such as Singapore, Houston or Perth, etc.



Read less
Biomedical engineers work at the interface of engineering, biology, and medicine, combining their engineering expertise with an understanding of human biology and medical needs to make the world a healthier place. Read more

Biomedical engineers work at the interface of engineering, biology, and medicine, combining their engineering expertise with an understanding of human biology and medical needs to make the world a healthier place.

This masters course will equip you with the specialist knowledge, expertise and skills to integrate biology and medicine with engineering to solve problems related to living systems.

Introducing your degree

The MSc Biomedical Engineering is designed for engineering, and physical science graduates who want to specialise in this vibrant area of engineering. There is high demand for biomedical engineers, and this masters has been developed with our graduates’ employability in mind.

Overview

During this course, you will learn the fundamental scientific and technical aspects of biomedical engineering, alongside developing your knowledge of the relevant aspects of human biology in health and disease. This interdisciplinary course draws on expertise from leading departments within the University of Southampton, brought together through the Institute for Life SciencesEngineering and the EnvironmentMedicineHealth SciencesNatural and Environmental Sciences, and Electronics and Computer Science.

If you choose to, you will be able to specialise in your chosen area of biomedical engineering through themed areas of application: musculoskeletal, cardiovascular, imaging, diagnostic systems and audiology.

The course will enable you to thrive in an environment where teams from range of disciplines have work together efficiently. To help you succeed as biomedical engineer, the course features ‘problem-driven’ seminars, site and hospital visits, workshops and training sessions by experts from industry and national laboratories. This combination of advanced engineering, industrial experience and research enables our graduates to make a significant contribution to the development and translation of biomedical technology in both industry and academia.

You will develop the skills to apply advanced engineering in an interdisciplinary environment working in teams of physicians, scientists, engineers, business people and other professionals to monitor, restore and enhance normal body function, abilities and outcomes. You will also enhance your understanding of the ethical, safety and societal implications of developing medical technologies. 

Through your research project you have a further opportunity to integrate your engineering skills with an understanding of the complexity of biological systems, enabling you to work successfully at the intersection of science, medicine and mathematics to solve biological and medical problems. Example research projects may include the design and performance evaluation of new devices to replace joints, or the development of new imaging methods to study bone or lung diseases.

View the specification document for this course

Career Opportunities

Many biomedical engineers work in research, either in academia or industry, along with medical scientists, to develop and evaluate systems and products such as artificial organs, prostheses, instrumentation, and diagnostic, health management and care delivery systems.

Biomedical engineers may design devices used in various medical procedures and develop imaging systems and devices for observing and controlling body functions.

Biomedical engineers therefore make careers in academia, industry, healthcare and clinical medicine, as well as government.



Read less
Our MSc in Space Systems Engineering draws extensively on the expert knowledge of the Astronautics group using content from the professional courses we run for the European Space Agency and spacecraft industry. Read more

Our MSc in Space Systems Engineering draws extensively on the expert knowledge of the Astronautics group using content from the professional courses we run for the European Space Agency and spacecraft industry. Led by the authors of the best-selling book "Spacecraft Systems Engineering", the course uses an integrated approach to the complete design of a total space system and shows how the various component subsystems function and interface with each other. The course is endorsed by the UK Space Agency (UKSA).

Introducing your degree

This postgraduate masters course emphasises the key aspects of spacecraft systems engineering, focusing on systems engineering, key spacecraft sub-systems, mission analysis and spacecraft design. It will suit graduates or similarly qualified individuals from engineering, scientific and mathematical backgrounds, with some experience of astronautics or aerospace engineering and who are aiming for further specialisation in spacecraft engineering.

Overview

This one-year advanced course draws on the international expertise of our Astronautics Research Groupand content from the courses we run for the European Space Agency. The course provides an integrated approach to the design of a total space system and describes how the various component subsystems function and interface with one another, giving you advanced knowledge of space systems engineering.

The year is divided into two semesters. Each semester, you will have the option to undertake specialist space engineering modules; including spacecraft structural and engineering design and propulsion.

You will work under the guidance of world-class experts in this area and benefit from our cutting edge facilities, including an autonomous systems testbed and shaker table. You will engage in experimental study and complete a critical research project. We offer a range of potential projects, from spacecraft self-healing structures to creating your own moon orbiter.

View the specification document for this course



Read less
This MSc will suit engineering, mathematics and physical sciences graduates who wish to specialise in the maritime engineering science sector. Read more

This MSc will suit engineering, mathematics and physical sciences graduates who wish to specialise in the maritime engineering science sector. The core modules are particularly relevant to the Advanced Materials theme of this course.

Introducing your degree

Maritime Engineering Science is an MSc course designed for graduates, or similarly qualified, with an engineering, scientific or mathematical background, who desire to pursue a career in maritime sector. An introductory module is provided at the start to give students the fundamental knowledge necessary for them to succeed in the course. The masters course in Maritime Engineering Science / Advanced Materials enables the students to specialise in the in-depth study of engineering materials in addition to core naval architecture subject areas.

Overview

This course will enable you to develop a fundamental understanding of maritime engineering. Core modules are particularly relevant to the advanced materials theme where you will explore composites, titanium and aluminium and understand their selection and engineering for maritime applications.

The year is divided into two semesters. Each semester, in addition to a set of specialist modules, you will also have opportunity to select from a range of option modules including marine structures, finite element analysis and composite engineering design. You will also learn the broader principles of marine safety, environmental engineering and management.

The last four months will put your newly developed knowledge into practice. You will complete a major research project and take advantage of our many facilities, including a state-of-the-art Transportation Systems Research Laboratory and wind tunnel complex to support your experimental work.

View the specification document for this course

Career Opportunities

The maritime sector provides many and varied career opportunities in engineering and project management related roles. Maritime Engineering Science graduates are in strong demand with good starting salaries and excellent career progression opportunities.

Our graduates work across many different organisations. The Solent region around Southampton is the main UK hub for the maritime sector with organisations such as Lloyd’s Register, Carnival, BMT Nigel Gee, Maritime and Coastguard agency and many others based nearby. Organisations such BAE Systems, QinetiQ and Babcock support primarily the defence sector and employ a good number of our graduates. The offshore and marine renewable developments are offering excellent prospects both to work in the UK (locally, London or Aberdeen) or worldwide in places such as Singapore, Houston or Perth, etc.



Read less
Leading engineers are using cutting-edge computational design techniques to transform our world. The latest simulation software can give accurate insights into how innovative design ideas will work in practice. Read more

Leading engineers are using cutting-edge computational design techniques to transform our world. The latest simulation software can give accurate insights into how innovative design ideas will work in practice. Effective modelling is vital in many industries including the automotive, aerospace and bioengineering sectors. We offer an exciting postgraduate degree in Computational Engineering Design covering the latest techniques and methods, taught by lecturers who are also active researchers working with industry.

Introducing your degree

The MSc Computational Engineering Design is a one-year masters degree. The course covers the latest techniques, methods and simulation software to give accurate insights into how innovative design ideas will work in practice and how to work effectively with industry.

Overview

Computational modelling is crucial for many industries, from bioengineering to automotive and aerospace. You will learn to use various software tools to assess the feasibility of designs. We also teach you to use advanced numerical methods and apply design search and optimisation principles to solve design problems.

The year will be divided into two semesters. Each semester, you will study core modules as well as choosing specialist modules that interest you, from Aircraft Structural Design to Engineering Design with Management.

The last four months will centre on research. You will have the chance to complete a significant research project under the guidance of our prestigious Computational Engineering and Design Research Groupwho have strong links with academia and industry.

The course will equip you with the specialist knowledge and practical skills for a professional career or further research in computational engineering design.

View the specification document for this course



Read less
The MSc Civil Engineering course is ideal for those wishing to switch to a career in civil engineering or graduates looking to advance their career towards Chartered Engineer status. Read more

The MSc Civil Engineering course is ideal for those wishing to switch to a career in civil engineering or graduates looking to advance their career towards Chartered Engineer status. The flexible course offers two professional pathways, and the option to carry out a research project while undertaking an industrial placement.

Introducing your degree

This degree will provide you with a sound understanding of civil engineering design and applications through a series of core and specialist modules in areas covering coastal and maritime engineering, hydraulics, the environment, infrastructure, transport and management. Our modules reflect our internationally-renowned research expertise in these fields. You will be involved in a research project, enabling you to apply the knowledge and transferable skills developed during the programme. The degree includes two pathways: (i) a conventional Masters programme for students with a first degree in civil engineering and (ii) a conversion pathway aimed at numerate non-civil engineering graduates.

Overview

The full-time course is taught by leading researchers in this field. You will learn to apply the latest statistical analysis tools. You also have the opportunity to study advanced modules in coastal, environmental, infrastructure and transport engineering.

The year is divided into two semesters. Each semester, you will select from a range of specialist modules, including earthquake engineering and groundwater hydrology and contamination. You also have the option to develop your knowledge of project economics, and law and contracts.

Practical sessions form a large part of the course. You will have access to specialist facilities, including heavy structures, hydraulics and geotechnical laboratories. You will also complete a final research project to evolve your critical-thinking and technical expertise.

We offer two pathways - a conversion pathway for non-Civil Engineering graduates wishing to convert their degree, and a standard pathway for those who already have a first degree in Civil Engineering; both pathways undertake a research project. There may also be the option for UK and EU students to undertake an 11 month industrial placement, please see the ‘Industrial Placement Option’ information below.

View the programme specification document for this course



Read less
This MSc will suit engineering, mathematics and physical sciences graduates who wish to specialise in the maritime engineering science sector. Read more

This MSc will suit engineering, mathematics and physical sciences graduates who wish to specialise in the maritime engineering science sector. The core modules, including 'Applications of CFD', and 'Advances in Ship Resistance and Propulsion', are particularly relevant to the Maritime Computational Fluid Dynamics theme of this course.

Introducing your degree

Maritime Engineering Science is an MSc course designed for graduates, or similarly qualified, with an engineering, scientific or mathematical background, who desire to pursue a career in maritime sector. An introductory module is provided at the start to give students the fundamental knowledge necessary for them to succeed in the course.

The masters course in Maritime Engineering Science / Maritime Computational Fluid Dynamics concentrates on the computational techniques and their applications to the predictions of fluid behaviour and its interactions with structure, core to the engineering in the maritime environment.

Overview

The year will be divided into two semesters. Your compulsory modules will give you an in-depth understanding of CFD methodology, data interpretation and practical applications of numerical procedures. You will also study Application of CFD and advances in ship resistance and propulsion.

In each semester, you will have the chance to broaden your maritime engineering education by selecting option modules including flow control, offshore engineering analysis and design search and optimisation.

The last four months will be devoted to practical research. You will complete a final research project and take advantage of our world-class high performance computing facility for your CFD work as well as CFD test facilities to perform your experimental work.

View the specification document for this course

Career Opportunities

The maritime sector provides many and varied career opportunities in engineering and project management related roles. Maritime Engineering Science graduates are in strong demand with good starting salaries and excellent career progression opportunities.

Our graduates work across many different organisations. The Solent region around Southampton is the main UK hub for the maritime sector with organisations such as Lloyd’s Register, Carnival, BMT Nigel Gee, Maritime and Coastguard agency and many others based nearby. Organisations such BAE Systems, QinetiQ and Babcock support primarily the defence sector and employ a good number of our graduates. The offshore and marine renewable developments are offering excellent prospects both to work in the UK (locally, London or Aberdeen) or worldwide in places such as Singapore, Houston or Perth, etc.



Read less
The latest generation of strong, lightweight and flexible materials is transforming industry. Aviation, aerospace, manufacturing and other sectors rely on our cutting-edge research into composites and other materials. Read more

The latest generation of strong, lightweight and flexible materials is transforming industry. Aviation, aerospace, manufacturing and other sectors rely on our cutting-edge research into composites and other materials.

Introducing your degree

The MSc Engineering Materials is a one-year masters degree. The postgraduate course covers the latest techniques and methods in this dynamic advanced mechanical engineering science subject.

Overview

Material properties, their limitations and engineering context are widely studied in this course. You will develop your knowledge of microstructural and surface characterisation and investigate the performance of structural materials in engineering applications.

The year is divided into two semesters. Each semester, you will study core modules as well as choosing specialist modules, including Biomaterials and Fuel Cells and Photovoltaic Systems. You will advance your understanding of materials manufacture, design and their use in transport applications in the aerospace, marine and automotive sectors. There is also the opportunity to advance your management skills in the first semester.

The final four months will focus on research. You will complete a research project, taking advantage of our many facilities, including a 3D computed tomography imaging laboratory to study internal structures of materials.

View the specification document for this course



Read less
This MSc will suit engineering, mathematics and physical sciences graduates who wish to specialise in the maritime engineering science sector. Read more

This MSc will suit engineering, mathematics and physical sciences graduates who wish to specialise in the maritime engineering science sector. The core modules are particularly relevant to the Naval Architecture theme of this course.

Introducing your degree

Maritime Engineering Science is an MSc course designed for graduates, or similarly qualified, with an engineering, scientific or mathematical background, who desire to pursue a career in maritime sector. An introductory module is provided at the start to give students the fundamental knowledge necessary for them to succeed in the course. This masters course in Maritime Engineering Science / Naval Architecture covers the core subjects and in-depth knowledge for design and analysis of marine craft and structures within the marine environment.

Overview

The year will be divided into two semesters. You will learn the fundamentals of ship science, including ship design, resistance and propulsion before advanced subjects. Your compulsory modules will examine marine structures in fluids and illustrate innovative concepts relating to structural integrity.

You will also have the chance to broaden your maritime engineering education by selecting option modules including high performance craft, ship manoeuvring and failure of materials and components.

You will tap into our Southampton Marine and Maritime Institute network and exploit our world-class maritime engineering facilities to undertake a final research project. The project will involve experimental and practical work and the completion of a dissertation.

View the specification document for this course

Career Opportunities

The maritime sector provides many and varied career opportunities in engineering and project management related roles. Maritime Engineering Science graduates are in strong demand with good starting salaries and excellent career progression opportunities.

Our graduates work across many different organisations. The Solent region around Southampton is the main UK hub for the maritime sector with organisations such as Lloyd’s Register, Carnival, BMT Nigel Gee, Maritime and Coastguard agency and many others based nearby. Organisations such BAE Systems, QinetiQ and Babcock support primarily the defence sector and employ a good number of our graduates. The offshore and marine renewable developments are offering excellent prospects both to work in the UK (locally, London or Aberdeen) or worldwide in places such as Singapore, Houston or Perth, etc.



Read less
The course provides an academically challenging exposure to modern issues in Advanced Mechanical Engineering Science giving you the opportunity to specialise in Mechatronics. Read more

The course provides an academically challenging exposure to modern issues in Advanced Mechanical Engineering Science giving you the opportunity to specialise in Mechatronics. It is suitable for engineering, mathematics or physical sciences graduates who wish to specialise in advanced mechanical engineering science or to support continued professional development. It offers a sound understanding of the relevant fundamental science, methods, analysis and engineering applications.

Introducing your degree

This masters course could see you designing robots and building machines with the power to change modern life. Mechatronics is an exciting branch of engineering, uniting the principles of electrical, mechanical and computer engineering.

Overview

This course will feature the expertise and guidance of our cutting-edge Electro-Mechanical Engineering Research Group. You will learn to confidently use advanced electrical systems and understand both the impact and use of control systems, instrumentation and sensors.

The year is divided into two semesters. Each semester, you will have the chance to broaden your engineering education by selecting specialist modules as well as completing core modules. Core modules focus on mechanical engineering, electrical systems and control. Specialist modules include Robotics and Automotive Propulsion.

The final four months will focus on applying research. You will engage in experimental and practical study and apply computer simulations to complete a research project and dissertation.

The course will equip you with the specialist knowledge and practical skills to pursue a professional career or further research in mechatronics.

View the specification document for this course



Read less
The MSc in Propulsion and Engine Systems Engineering is a broad based 1 year MSc course, that provides you the opportunity to specialise in the engineering sciences that are key to the design, monitoring and analysis of propulsion and engine systems. Read more

The MSc in Propulsion and Engine Systems Engineering is a broad based 1 year MSc course, that provides you the opportunity to specialise in the engineering sciences that are key to the design, monitoring and analysis of propulsion and engine systems. You will do compulsory modules on gas turbine, internal combustion, electrical and hybrid engines for a range of transport applications.

You will be able to further specialise by selecting optional modules in related technologies including condition monitoring, materials, engine tribology, noise control, environmental aspects, batteries, fuel cells and spacecraft propulsion. After completing the taught section (8 modules) you will complete the MSc course through an individual project. Projects will be available in a wide range of topics including engine materials, combustion modelling, electrical motors, engine noise control and engine tribology.

Introducing your degree

Do you love speed? Are you fascinated by the design and development of plane and car engines? Then choose MSc Propulsion and Engine Systems Engineering and see your career take flight. Propulsion and engine systems are the driving force of many life-defining technologies.

Overview

You will learn to confidently analyse and design advanced electrical systems. You will also study modules on gas turbines, internal combustion and electrical and hybrid engines for transport applications, including aircraft and automotive.

The year will be divided into two semesters. Each semester, you will study core modules as well as choosing specialist modules from Spacecraft Propulsion to Acoustics. You also have the option to specialise in topics relating to condition monitoring, materials, energy efficiency and engine tribology.

The final four months will focus on research. You will engage in experimental and practical study and complete a research project and dissertation. Projects cover a wide range of subjects including combustion modelling, electrical motors and engine noise control.

View the specification document for this course



Read less
This MSc will suit engineering, mathematics and physical sciences graduates who wish to specialise in the maritime engineering science sector. Read more

This MSc will suit engineering, mathematics and physical sciences graduates who wish to specialise in the maritime engineering science sector. The core modules, including 'Yacht and High Performance Craft', and 'Sailing Yacht and Powercraft Design', are particularly relevant to the Yacht and Small Craft theme of this course.

Introducing your degree

Maritime Engineering Science is an MSc course designed for graduates, or similarly qualified, with an engineering, scientific or mathematical background, who desire to pursue a career in maritime sector. An introductory module is provided at the start to give students the fundamental knowledge necessary for them to succeed in the course. Engineers from the world-renowned Wolfson Unit for Marine Technology and Industrial Aerodynamics contribute to this unique masters in Maritime Engineering Science / Yacht and Small Craft course, which covers the analysis, design and performance of yachts, small craft and other high-performance vessels.

Overview

In the two semesters, you will fully exercise your practical skills and gain a detailed insight of yacht and high performance craft and sailing yacht and powercraft design, including hull design, sailplan and rig development. You will also learn to apply the latest design tools and methodologies.

The summer months will focus on project work. You will tap into our Southampton Marine and Maritime Institute research network and undertake a final research project using our world-class maritime engineering facilities. The project will involve experimental and practical study and the completion of a dissertation.

View the specification document for this course



Read less
There is increasing pressure to make life quieter and to gain a better understanding of how noise and vibration affect people. Our MSc in Acoustical Engineering is a full-time masters degree that offers an academically challenging exposure to modern developments in sound, vibration and signal processing. Read more

There is increasing pressure to make life quieter and to gain a better understanding of how noise and vibration affect people. Our MSc in Acoustical Engineering is a full-time masters degree that offers an academically challenging exposure to modern developments in sound, vibration and signal processing.

Introducing your degree

Acoustical engineers are in great demand in almost every field of engineering. Whether they’re creating better-sounding concert halls, superior sound reproduction systems, clearer ultrasound scans or quieter aeroplanes, acoustical engineers combine solid understanding of engineering fundamentals with specialist knowledge of sound and vibration to make the world sound better. A unique degree course for those with a passion for sound.

Overview

Learning and teaching

The programme is split into two components: a 'taught' component (October to June) and a research component (February to September). The courses are taught at the Institute of Sound and Vibration Research (ISVR), which is a world-leading centre for acoustical engineering.

Taught Modules

The 'taught' component will consist of a range of modules based on lectures, hands-on demonstrations, laboratory teaching and exercises in small groups.

You are encouraged throughout to contribute your own professional experiences and thoughts to the learning of the whole class through a free exchange of ideas.

Research Project

The research project is the climax of the MSc programme. The project offers an opportunity to perform advanced research supervised by a member of academic staff. A list of projects offered by members of teaching staff is posted during Semester 1. You may also propose your own project.

Work begins on the project in February with the Project Development module. The research itself is mostly carried out during the summer period. A planning and literature review report is submitted at an early stage in the project, and an interview/presentation with the internal examiner is held at around the mid-point. On completion a dissertation is produced. This has to be completed and submitted before the start of the new academic year.

Assessment

Testing of the knowledge base is through a combination of unseen written examinations and assessed coursework in the form of problem solving exercises, laboratory reports, design exercises, essays, and individual and group projects.

Analysis and problem solving skills are assessed through unseen written examinations and problem based exercises. Experimental, research and design skills are assessed through laboratory reports, coursework exercises, project reports and oral presentations.

As a research-led University, we undertake a continuous review of our programmes to ensure quality enhancement and to manage our resources. As a result, this programme may be revised during a student’s period of registration; however, any revision will be balanced against the requirement that the student should receive the educational service expected. Please read our Disclaimer to see why, when and how changes may be made to a student’s programme.

Programmes and major changes to programmes are approved through the University’s programme validation process which is described in the University’s quality handbook.

View the programme specificiation document for this course

Pathway

Through the wide choice of modules available on the MSc Acoustical Engineering course, you have the possibility to specialise in one of the two following areas, after enrolling on the course:

Signal Processing

The Applied Digital Signal Processing pathway provides in-depth training on modern signal processing techniques for biomedical applications and audio signal processing.

Structural Vibration

The Structural Vibration pathway emphasises the advanced techniques to model, measure and control vibration in mechanical systems such as railways and automotive applications.



Read less

Show 10 15 30 per page



Cookie Policy    X