• University of Southampton Featured Masters Courses
  • Ross University School of Veterinary Medicine Featured Masters Courses
  • Swansea University Featured Masters Courses
  • University of Edinburgh Featured Masters Courses
  • Jacobs University Bremen gGmbH Featured Masters Courses
  • Goldsmiths, University of London Featured Masters Courses
  • Anglia Ruskin University Featured Masters Courses
  • University of Edinburgh Featured Masters Courses
Cranfield University Featured Masters Courses
FindA University Ltd Featured Masters Courses
Imperial College London Featured Masters Courses
FindA University Ltd Featured Masters Courses
University of Leeds Featured Masters Courses
0 miles
Engineering×

Aston University, Full Time Masters Degrees in Engineering

We have 9 Aston University, Full Time Masters Degrees in Engineering

  • Engineering×
  • Aston University×
  • Full Time×
  • clear all
Showing 1 to 9 of 9
Order by 
This MSc programme offers very relevant modules in highly sought-after engineering and scientific subjects. Read more
This MSc programme offers very relevant modules in highly sought-after engineering and scientific subjects. Computational modelling has become an essential part of industrial product development; the manufacturing sector in particular has been experiencing a significant uptake of computational engineering technologies to increase its competitiveness in the global market. This programme is designed for engineering and science graduates, providing a wide exploration of these new and advanced technologies. Problem based learning facilities the application of the modelling techniques.

Subject guide and modules

The range of modules reflects the nature of engineering modelling and the uses it is put to in engineering and commercial practice.
Core modules:
-Computational Fluid Dynamics and Applications (ME4501)
-Practical Numerical Methods (ME4510)
-CAD Principles and Materials Selection (ME4505)
-Advanced Computer Aided Design (ADVCAD) (ME4518)
-Major Project (PD4000)
-Research Project (PD4001)
-Renewable Energy (ME4504)
-Sustainable Design (PD4005)

Elective Modules:
-Solid Mechanics and Finite Element Analysis (ME3070)
-Strategic Finance (EM4001)
-Project Management (EM4003)
-New Product Development (EM4006)
-Innovation Business Development (PD4008)
-Finite Element Analysis: Theory and Application (ME4502)

Learning, teaching & assessment

The modules in this programme are delivered with lectures and lab-based tutorials giving a good balance between scientific methodologies and hands-on practice.

There is a heavy emphasis on the use of computational engineering methods and this is reflected in the way the programme is delivered and assessed.

Modules are assessed through either course work or exams. The major project is assessed by dissertation; examples of past major projects include development of CFD code, aero and structural dynamics of vehicles and aircraft, and analysis of development of industrial machines.

Personal development

Along with the range of technical skills, the Programme aims to develop self reliance, project management, IT communications and research skills.

You will develop and deliver a major dissertation and the necessary project management processes. You will also make several individual presentations and get chance to hone your interview techniques.

Career prospects

Career prospects for graduates are excellent. The programme puts practical engineering modelling, research and project management skills in to the hands of graduate. This helps career progression in industries where computer-based technology is required including manufacturing, R&D, science, IT, design and academia.

Recent graduates have been employed in a range of jobs including:
-Product development with a manufacturer of domestic heating products
-Computer aided design with a manufacturer of military/surveillance equipment

Professional accreditation

The MSc Mechanical Engineering (Modelling) is accredited by the Institution of Mechanical Engineers (IMechE) for the purpose of meeting the educational requirements of Chartered Engineer (CEng).

Read less
The Engineering Management MSc provides knowledge and understanding of the principles underlying the strategic management of businesses. Read more
The Engineering Management MSc provides knowledge and understanding of the principles underlying the strategic management of businesses. The course enables the student to use the techniques required for the analysis of strategic business issues.

The programme requires the student to undertake 11 taught modules and to complete a major project of approximately 15,000 words. Each taught module involves 22 teaching hours, which may include tutorials, case studies, and guest lectures. The course will run from October to September with examination weeks in December and March/April. The project occupies the final six months.

Modules
-EM4001 Strategic Finance
-EM4002 Strategic Management
-EM4003 Project Management
-EM4005 Management of Change
-EM4006 Product Introduction Process
-EM4007 Lean & Agile Manufacture
-EM4012 Human Resource Management
-EM4019 Research Methods
-EM4022 Corporate Social Responsibility
-EM4023 Management in Engineering Enterprises
-EM4020 Major Project

Learning, Teaching & Assessment

Assessment methods are designed to meet the particular requirements of each module. These methods vary from 100% examination to 100% continuous assessment. Currently the balance for the taught element of the Programme is approximately 65% examination and 35% continuous assessment. The major project accounts for 60 of the 180 credits required for successful completion of the degree.

Career Opportunities

This programme is suitable for candidates seeking a career in the Engineering and Manufacturing sectors, particularly those who aspire to a senior management role.

Read less
This programme is designed to develop or update a wide range of technical understanding, engineering “know-how” and professional skills that are needed to contribute effectively to the design and development of telecommunications systems for national and international networks, or to enter telecommunications research. Read more
This programme is designed to develop or update a wide range of technical understanding, engineering “know-how” and professional skills that are needed to contribute effectively to the design and development of telecommunications systems for national and international networks, or to enter telecommunications research.

Course outline

Aston’s long-established MSc in Telecommunications Technology programme is organised by the Electronic Engineering subject group in cooperation with the telecommunications industry via an industrial steering committee. The programme is designed to develop or update a wide range of technical understanding, engineering “know-how” and professional skills that are needed to contribute effectively to the design and development of telecommunications systems for national and international networks, or to enter telecommunications research. The programme is involved in the ERASMUS exchange scheme with a well established link with ENST Brest. Graduates of this programme are highly regarded; many of our past students have risen to senior posts within the telecommunications sector.

Taught modules and examinations/assessments are completed during the six months October to March. After successful completion students may then progress to the six month individual research project during April to October.

We endeavour to place students with industrial sponsors for the duration of their projects, with all other projects being undertaken at the University.

Modules
-Information Theory and Coding and Traffic Theory (EE401A)
-Radio Systems and Personal Communications Networks (EE402B)
-Internetworking (EE403B)
-Mobile Data Networks (EE4016)
-Realtime Communication Networks (EE4017)
-Digital Transmission (EE401B)
-Optical Communications (EE402A)
-Software Engineering (EE404A)
-Introductory Programming (EE404B)

Dissertation Stage
-MSc Project (EE4006)
-Project Preperation (EE4019)

Learning, teaching & assessment

The taught section of the programme is assessed by formal examinations, course work and case studies. The project is assessed through a dissertation, an oral presentation (viva) and an assessment by the project supervisor. Further details are available on the individual module specifications.

Professional accreditation

The MSc in Telecommunications Systems is fully accredited by The Institution of Engineering and Technology (IET).

Career opportunities

The programme will be of interest to students in technical careers related to the design and development of telecommunications systems for national and international networks, or to those wishing to enter telecommunications research. The programme provides a means whereby graduates from non-telecommunications technical degrees can move into this high demand area. Many of our past students are now senior managers in telecommunications companies in the UK and around the world.

Personal development

Our programmes provide a means where graduates from non-telecommunications technical degrees can move into this high demand area. The programme is an “Advanced Vocational Course” postgraduate degree in Telecommunications Systems its theory, practice and applications.

Some of the subjects make full recourse to a range of mathematical topics that should be familiar to the honours graduate of an accredited Undergraduate Degree in Electronic Engineering. Any student who may not possess this familiarity, will be expected to achieve it by private study.

Read less
This MSc Product Design programme is for students with a background in design, engineering or related areas. The course and modules aim to develop and enhance your innovation skills and knowledge required to achieve successful product design development and innovation. Read more
This MSc Product Design programme is for students with a background in design, engineering or related areas. The course and modules aim to develop and enhance your innovation skills and knowledge required to achieve successful product design development and innovation.

You will develop a high level of creativity and design ideas as a part of your response to possible market opportunities. This is a key element to your learning on this programme.

The course will also enable you to develop a critical understanding of sustainable factors and its relevance and importance to all our futures. The course creates opportunities for students to originate new ideas and model or prototype design solutions that will meet perceived manufacturing, marketing and consumer needs.

Subject guide and modules

The range of modules reflects the nature of innovative design solutions plus the additional knowledge and skills required to put it into practice professionally. Elective module selection is detailed in the Programme Specifications.

Core Taught Modules
-New Product Development (EM4006)
-Research Project (PD4001)
-Product Design Innovation (PD4002)
-Sustainable Design (PD4005)
-Innovation Business Development (PD4008)
-Design Realisation (PD4009)
-International Studies (PD4010)

Optional Taught Modules
-Strategic Management (EM4002)
-Computational Fluid Dynamics and Applications (ME4501)
-Finite Element Analysis: Theory and Application (ME4502)
-Renewable Energy (ME4504)
-CAD Principles and Materials Selection (ME4505)
-Advanced Computer Aided Design (ME4518)

The Major Project module is completed between April and September.
-Major Project (PD4000)

Learning, teaching & assessment

The modules in this programme are delivered with lectures, seminars and lab-based tutorials giving a good balance between scientific methodologies and hands-on practice.

Creativity will underpin much of the interactive work during this course. Developed ideas can be manufactured using a variety of techniques including the use of our range of Rapid – Prototyping equipment.

Modules are assessed mainly through coursework, although some modules may also have exams. The major project is assessed by dissertation and supporting design work. Examples of past major projects range from the development of innovative Rigging for Stunt Kite Boarding, Race Car Suspension using composite technologies with Innovative Designs to the use of Solar Energy to help cool domestic conservatories.

Personal development

This is an interactive course aimed to develop your knowledge and understanding of the changes, developments and potential opportunities that face us all in a Global economy. You will create and deliver a major project and develop effective research and specification skills.

Semester 1 modules will enable you to develop the knowledge, skills and expertise required for this level of work, as well as the opportunity to initiate the research for the major project idea. Semester 2 modules will enable you to extend your professional understanding and expertise through module coursework, individual projects and teamwork.

You will also make several individual presentations and get chance to hone your interview techniques.

Professional accreditation

This programme is fully accredited by the Institution of Engineering Designers leading to Chartered Engineering status (CEng).

Career prospects

Career prospects for graduates are excellent On completion of this one year course the student should be able to confidently develop their own product ideas and innovations ‘ready for manufacture and marketing’, start their own design business enterprise, or enter new product development organisations and other creative businesses at a higher level of responsibility.

Read less
The Product Design Enterprise MSc was developed to interest graduates from a business or design background. Read more
The Product Design Enterprise MSc was developed to interest graduates from a business or design background. To enhance knowledge and understanding of the principles underlying professional product design, and enable the student to develop appropriate entrepreneurial skills enabling viable manufacturing, marketing or business enterprises.

The programme requires the student to undertake 10 taught modules and to complete a major project of approximately 15,000 words. Each taught module involves up to 22 contact hours per week, including lectures, tutorials, seminars and project classes. The course will run from October to September with examinations/assessments held in December and March/April. The Research Project explores fully the feasibility of the Major Project, which must be completed by early September.

Modules

Core Modules
-Product Design Innovation (PD4002)
-New Product Development (EM4006)
-Research Project (PD4001)
-Sustainable Design (PD4005)
-Innovation Business Development (PD4008)
-Design Realisation (PD4009)
-International Studies (PD4010)
-Major Project (PD4000)

Elective modules
-Management of Change (EM4005)
-Renewable Energy (ME4504)
-Finite Element Analysis: Theory and Application (ME4502)
-Advanced Computer Aided Design (ME4518)

Learning Teaching & Assessment

The modules in this programme are delivered with lectures, seminars and lab-based tutorials giving a good balance between scientific methodologies and hands-on practice.

Creativity will underpin much of the interactive work during this course. Developed ideas can be manufactured using a variety of techniques including the use of our range of Rapid – Prototyping equipment.

Modules are assessed mainly through coursework although some modules may also have exams. The major project is assessed by dissertation and supporting design work.

Examples of past major projects range from the development of innovative Rigging for Stunt Kite Boarding, Race Car Suspension using composite technologies with Innovative Designs to the use of Solar Energy to help cool domestic conservatories.

Professional Accreditation

This programme is fully accredited by the Institution of Engineering Designers leading to Chartered Engineering status (CEng).

Career Opportunities & Personal Development

This programme is suitable for candidates seeking to develop their own product ideas and innovations ‘ready for manufacture and marketing’, start their own design business enterprise, or enter new product development organisations at a higher level of responsibility.

This is an interactive course aimed to develop your knowledge and understanding of the changes, developments and potential opportunities that face us all in a Global economy. You will create and deliver a major project and develop effective research and specification skills.

Semester 1 modules will enable you to develop the knowledge, skills and expertise required for this level of work, as well as the opportunity to initiate the research for the major project idea. Semester 2 modules will enable you to extend your professional understanding and expertise through module coursework, individual projects and teamwork.

You will also make several individual presentations and get chance to hone your interview techniques.

Read less
The Wireless Communications and Networking programme is designed to address the rapidly increasing demand for qualified engineers and managers with well equipped knowledge in wireless and mobile communication systems and networks. Read more
The Wireless Communications and Networking programme is designed to address the rapidly increasing demand for qualified engineers and managers with well equipped knowledge in wireless and mobile communication systems and networks. This one-year programme offers six-month taught modules covering a wide range of subjects from fundamental information and communications technology (ICT) to contemporary developments in wireless and mobile industry. It also includes a six-month individual project with opportunities of participating in the project provided by industry. This programme is suitable for those who want to develop the knowledge and skills needed for a successful career in these specific and related areas.

The delivery of the programme is fully supported by the dedicated facilities in the Electronic Engineering Department and across the University, such as teaching and computing laboratories, and the involvement of experienced member of staff. Our research facilities in the Adaptive Communications and Networks Research Group and Wireless Network Laboratory are also available for use on MSc projects. To ensure its continuing relevance the programme is monitored by an industrial steering committee which includes representatives from major employers.

About the MSc in Wireless Communications and Networking:
-Prepares students for an intellectually challenging career as a qualified engineer.
-Provides students with a thorough grounding in the principles and the requisite specialist knowledge and skills to develop, manage and adapt current systems.
-An industrial advisory group (Steering Committee) reviews the programme on a continual basis.
-Guest lecturers presented by acknowledged experts from industry and academic institutions.
-An active alumni group on LinkedIn.
-Free student membership of the IET.

Modules

This MSc integrates a taught component of nine modules plus a major project and a project preparation module, constituting in total 180 credits. Taught modules and examinations/assessments are completed during six months, October to March. After successful completion students may then progress to the six month individual research project during April to October. The project is either undertaken in an industrial laboratory or at the University, often with guidance and direction from industrial partners. The module titles are:
-Mobile Data Networks (EE4016)
-Realtime Communication Networks (EE4017)
-Information Theory and Coding and Traffic Theory (EE401A)
-Digital Transmission (EE401B)
-Broadband Wireless Networks (EE4027)
-Pervasive and Mobile communication networks (EE4028)
-Radio Systems and Personal Communications Networks (EE402B)
-Internetworking (EE403B)
-Introductory Programming (EE404B)

Dissertation Stage
-MSc Project (EE4006)
-Project Preperation (EE4019)

Read less
Wireless communications is a ubiquitous technology which will be critical to establishing the Internet of Things. On this course you will combine taught material central to your research as well as advanced knowledge obtained from your research project. Read more
Wireless communications is a ubiquitous technology which will be critical to establishing the Internet of Things. On this course you will combine taught material central to your research as well as advanced knowledge obtained from your research project. The Aston Adaptive Communications Research Group has expertise in LTE, machine to machine communication, multimedia transmission and ad-hoc networking. The course will enhance your employability throughout the wireless communications industry.

This programme trains aspiring academic and industrial research scientists. The programme consists of a training aspect of taught components (equivalent to 3 modules approximately during the first 3 months) and a significant interdisciplinary research project.

In additional to the research skills module (ISI4001), students will study approximately 20 credits of material relevant to their research topic and experience. This material will be determined through a training needs analysis undertaken in collaboration with their project supervisor.

Exemption from these modules may be arranged through APL or APEL, provided this is done prior to enrolment. In Electronic Engineering we can supervise projects in the following areas. In addition, applicants may also suggest their own project.

Personal Development

Students will have the opportunity to carry out a research project in collaboration with industry and through this learn about the application context of technology and the interaction between research and business.

Facilities & Equipment

Students will get access to appropriate computational and experimental facilities. Aston University offers Wi-Fi connection, modern lecture/tutorial rooms, computer labs, lounge area, good learning resources and publications are available in the library and many electronically.

Read less
This programme aims to provide a high level of scientific knowledge and understanding of stem cell biology and regenerative medicine - from the molecular to the whole system level. Read more
This programme aims to provide a high level of scientific knowledge and understanding of stem cell biology and regenerative medicine - from the molecular to the whole system level.

Course Outline & Modules

This programme aims to provide a high level of scientific knowledge and understanding of stem cell biology and regenerative medicine - from the molecular to the whole system level. The programme aims to enable students to develop an informed and critical appreciation of recent scientific developments in these areas of modern biomedical sciences and its clinical and industrial application, as well as a practical skill set for further research and learning, e.g. PhD studies.

The opportunity to undertake a work experience placement will enable students to further their employability and transferable skills and develop links with participating clinical and industrial partners.

This course offers a flexible framework of core and optional modules. The core modules are:
-Advanced Laboratory Skills with data analysis and interpretation
-Understanding Professional Practice & Enhancing your Employability
-Mammalian Cell Biology and Culture
-Stem Cells and Tissue Engineering Technology
-Tissue Formation, Function and Repair
-Models of Regeneration I

Optional modules include, but are not limited to:
-Ageing and Regenerative Medicine
-Transplantation Biology
-Finance and Business Management

Note that not all options may be available in any one year and that options will not proceed if the minimum student intake number is not reached.

Learning, Teaching & Assessment

The programme is delivered using a combination of lectures, practical classes, tutorials and seminars. Some modules will include group work. The core employability module will use visiting lecturers from industry to illustrate the potential employment avenues for graduates of this course. The course includes a research project, this is likely to be a laboratory-based project where students will collect and analyse their own data. Assessment methods employed include examinations and continuous assessment through coursework; these will differ for individual modules.

Career Opportunities

Completion of this course prepares students for a research-focussed role in industry, including the developing clinical field of stem cell therapies of regenerative medicine, or academia. Graduates can therefore expect to enter further research, in the form of a PhD or research assistant, or may undertake a career in the commercial or clinical sector.

Personal Development

Completion of this course prepares students for a research-focussed role in industry, including the developing clinical field of stem cell therapies of regenerative medicine, or academia. Graduates can therefore expect to enter further research, in the form of a PhD or research assistant, or may undertake a career in the commercial or clinical sector.

Read less
This programme is designed to train aspiring research scientists and budding IT professionals who wish to rely on numerical proficiency to further their career goals. Read more
This programme is designed to train aspiring research scientists and budding IT professionals who wish to rely on numerical proficiency to further their career goals. The programme consists of a training aspect of taught components (3 modules approximately during the first 3 months) and a significant interdisciplinary research project centered towards computational mathematics (9 months)

Research topics are chosen by students from a list of topics mirroring the computational expertise of the Mathematics group and the newly founded Systems Analytics Research Institute at Aston, with Computationally oriented projects in for example, biology, optimization, pattern analysis and physics as well as finance. The projects are supervised by academics from the Mathematics group and the Systems Analytics Research Institute at Aston.

The MSc integrates a taught component of three modules over approximately three months (30 credits) with a substantial individual research project lasting nine months (150 credits)

Core modules:
-Computational Mathematics (10 Credits)
-Research skills and Professional Development (10 Credits)
-Specialist/Technical Research Skills (10 Credits)

Exemption from these modules may be arranged through APL or APEL, provided this is done prior to enrolment.

Personal Development

Students will have the opportunity to carry out a research project in collaboration with industry and through this learn about the application context of technology and the interaction between research and business.

Read less

  • 1
Show 10 15 30 per page



Cookie Policy    X