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Engineering×

University of Warwick, Full Time Masters Degrees in Engineering

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This course will appeal to you if you wish to develop the versatility and depth of knowledge to deal with new and unusual challenges across a wide range of disciplines within engineering and beyond. Read more
This course will appeal to you if you wish to develop the versatility and depth of knowledge to deal with new and unusual challenges across a wide range of disciplines within engineering and beyond. The programme consists of five core modules including essential advanced level aspects of solid and fluid mechanics, precision engineering, modelling and simulation.

You can tailor the course to your interests through your individual project and by choosing three optional modules drawing in subjects such as biomechanics, heat transfer, renewable energy, energy storage technologies, mathematical and computational modelling, or further advanced fluid dynamics. Along the way you’ll develop skills in the understanding and modelling of a range of complex systems.

You’ll be based within a forward-thinking learning environment addressing industry focused research activities. Our activities include: automotive systems; biomedical engineering; solid and fluid mechanics; electrical and thermal energy systems, energy conversion and storage, and sustainable cities.

Recent graduates are now working in senior technical engineering, academic research, global consultancy, management positions, and roles in business, finance and accountancy.

Course structure

The MSc degree (totalling 180 credits) comprises:
-Eight taught modules (15 credits each)
-A research project (60 credits)

The five core modules of the course focus on essential advanced level aspects of solid and fluid mechanics, precision engineering, modelling and simulation. These topics develop skills in understanding and modelling a range of complex systems, developing the theories of interaction and representing these with mathematical formulae. Solution of these models is covered through analytical solution, writing computer code and using proprietary (industry standard) software. These skills are useful in all areas of mechanical engineering and are associated with the application of computers in engineering practice.

Three optional modules allow a focused study of topics directed towards the students’ own interests and provide students with a knowledge and understanding of the ‘state-of-the-art’ in one or more of the many areas of mechanical engineering in which the School has acknowledged expertise. The optional modules are run in subject areas for which Warwick has a very strong research background and are led by academics who are experts in the field.

Projects can be chosen in any available subject area. The project allows students to specialise further in their chosen field of interest, gaining substantial expertise in one particular area. Although the School offers a broad range of project topics, the individual project is usually associated with current research activity or industrial consultancy. Students therefore benefit from working at the cutting edge of their chosen field, doing work that is of direct relevance to society or industry.

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This course combines value creation with strategic development in a manufacturing environment, providing you with up-to-date knowledge of manufacturing techniques and processes. Read more
This course combines value creation with strategic development in a manufacturing environment, providing you with up-to-date knowledge of manufacturing techniques and processes.

You’ll develop an understanding of the concepts of manufacturing engineering systems as well as the skills to analyse, design and implement these systems in practice. You’ll also gain experience in the application of technology and of quality tools and techniques in order to improve operations and develop skills in strategic and operational management. Modules include: Industrial Engineering; Manufacturing Process Technology; Operations Strategy for Industry; Problemsolving with Statistics; Quality, Reliability and Maintenance; Project Planning, Management and Control; Logistics and Operations Management; and additional technical electives (such as Automation and Robotics; Machining Technology; Advanced Materials and Processes; Digital Design Collaboration; or The Virtual Factory).

Our graduate career destinations include roles in the automotive, financial, energy and materials industries, at companies ranging from Jaguar Land Rover and ING Bank Turkey to Colgate Palmolive, AWE and Aruna Alloy Steels.

Designed For

MSc in Manufacturing Systems Engineering and Management is designed for engineering graduates interested in manufacturing systems and operations management.

It is suitable for engineers working in industry who want to make the transition to engineering manager and is also suitable for graduates with little or no work experience.

We will provide you with

Up-to-date knowledge of manufacturing techniques and processes plus applications of technology & quality tools and techniques to improve operations in the organisation. You will develop an understanding of the concepts of manufacturing systems engineering, product and process development with an awareness of strategic management and operations.

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This course combines value creation with strategic development in a manufacturing environment, providing you with up-to-date knowledge of manufacturing techniques and processes. Read more
This course combines value creation with strategic development in a manufacturing environment, providing you with up-to-date knowledge of manufacturing techniques and processes.

Designed for

MSc in Manufacturing Systems Engineering and Management is designed for engineering graduates interested in manufacturing systems and operations management.

It is suitable for engineers working in industry who want to make the transition to engineering manager and is also suitable for graduates with little or no work experience.

The Course Provides

Up-to-date knowledge of manufacturing techniques and processes plus applications of technology & quality tools and techniques to improve operations in the organisation.

You’ll develop an understanding of the concepts of manufacturing engineering systems as well as the skills to analyse, design and implement these systems in practice. You’ll also gain experience in the application of technology and of quality tools and techniques in order to improve operations and develop skills in strategic and operational management.

Course Content

Core Modules:
1. Industrial Engineering
2. Manufacturing Process Technology
3. Operations Strategy for Industry
4. Problem Solving with Statistics
5. Quality, Reliability and Maintenance
6. Project Planning, Management and Control
7. Logistics and Operations Management

Plus one from:
1. Automation and Robotics
2. Machining Technology
3. Advanced Materials and Processes
4. The Virtual Factory

Plus one elective module from the full list of modules.

Learning Style

Taught material is a blend of formal lectures, seminars and practical exercises and case studies to encourage teamwork and practical grounding of the material. Module leaders are experts in their fields and are supported by external speakers working in organisations at the forefront of their fields. Industrial visits are available to all students and the course is assessed through assignments.

After Your Graduate

Our graduate career destinations include roles in the automotive, financial, energy and materials industries, at companies ranging from Jaguar Land Rover and ING Bank Turkey to Colgate Palmolive, AWE and Aruna Alloy Steels.

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This one-year, research-led course will fully prepare you for a career within an exciting and ever-expanding field. Read more
This one-year, research-led course will fully prepare you for a career within an exciting and ever-expanding field. You’ll develop expertise in systems analysis and mathematical modelling for application to processes in biomedicine; compartmental modelling in physiology and medicine; physical principles in medicine; properties and design of the materials employed in medical applications; and signal processing and data analysis techniques for physiological data.

Our supportive teaching staff will encourage you to generate new and forward-thinking ideas as part of your independent research project. Projects initiated by former students include: Bone Investigation using Infrared Detection; Modelling Gas Exchange in the Human Respiratory System and Modelling of Acute Hypercalcemia Immunotherapy Treatment. Recent graduates have progressed into careers that range from biomedical engineering and biotechnology to pharmaceutical industries and research.

Core modules

-Fundamentals of Biomedical Engineering
-Imaging and Sensing in Body and Brain
-Biomechanics
-Biomedical Systems Modelling
-Biomedical Signal Processing

Optional modules

Choose one from the following:
-Biomedical Materials, Tissue Engineering and Regenerative Medicine
-Healthcare Technology Engineering: Design, Maintenance and Assessment

Individual project

Half the course credit comprises a substantial project appropriate to the course of study. This entails an in-depth experimental, theoretical or computational investigation of a topic chosen by the student in conjunction with an academic supervisor.

The modules are delivered thoughout the first two terms. The module cycle is typically 3 or more more lectures per week plus seminars and laboratory exercises. Where possible the modules are interleaved in pairs. Each module has a coursework exercise associated with it to be completed within 1 month of the end of the module to demonstrate the student's understanding of the subject.

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This course provides you with comprehensive training in the essential elements of information engineering and communications. Module options are topical and relevant, encompassing the design of application-specific integrated circuits, micro-electromechanical systems and optical engineering. Read more
This course provides you with comprehensive training in the essential elements of information engineering and communications. Module options are topical and relevant, encompassing the design of application-specific integrated circuits, micro-electromechanical systems and optical engineering.

You’ll also have the opportunity to tap into the world of Computer Science and explore ‘big data’, covering themes such as digital multimedia storage and communications technologies, data analytics and data mining in terms of algorithms, and goals in real-world problems. You’ll also pick up transferable skills for any future study or career, such as project planning and management, ethics, health and safety, report writing, library skills and career management.

Our recent graduates now occupy positions in industries ranging from core network provision through to logistics and software support, in addition to opportunities in data communication equipment and services.

Course description

The MSc degree (totalling 180 credits) comprises eight taught modules (15 credits each), five core modules and three optional modules (see below), along with a research project worth 60 credits (see below).

Core modules

-Advanced Wireless Systems and Networks
-Information Theory and Coding
-Antenna, Propagation and Wireless Communications Theory
-Optical Communication Systems
-Signal & Image Processing

Optional modules

ASICs, MEMS and Smart Devices
Optical Engineering
Data Mining (from Computer Science)
Foundations of Data Analytics (from Computer Science)
Multimedia Processing, Communications and Storage (from Computer Science)

Individual research project

The individual research project is an in-depth experimental, theoretical or computational investigation of a topic chosen by you in conjunction with your academic supervisor. Typical project titles include:
-Network coding for underwater communications.
-Nanoscale communication networks.
-Forward Error Correction for Spectrally Sliced Transmission.
-Routing Algorithm Design for Mobile Ad Hoc Networks.
-Logical Stochastic Resonance.
-Design of Radio Devices using Metamaterials.
-Nonlinear Effects in Optical Fibre Transmission.

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Three cross-cutting research themes - Energy, Biomedical Engineering and Sustainable Cities - facilitate multidisciplinary research across research groups. Read more

Overarching research themes

Three cross-cutting research themes - Energy, Biomedical Engineering and Sustainable Cities - facilitate multidisciplinary research across research groups.

Research Groups (specialisms)

Communications, Energy Conversion, Electrical Power, Fluid Dynamics, Geotechnics and Tunnelling, Thermofluids, Precision Mechanics, Process and Chemical Engineering, Sensors and Devices, Structures and Materials, Civil Engineering and Systems Modelling.

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If you have a general engineering and/or science background, this course will provide you with the additional knowledge and skills required to become a power engineer. Read more
If you have a general engineering and/or science background, this course will provide you with the additional knowledge and skills required to become a power engineer.

If you already have an electrical engineering or electronics background, the course enables you to update your knowledge to include the latest developments in renewable energy (including energy from the environment) and smart grids, making use of modern sensing, communication and signal- processing technologies.

The programme consists of five core taught modules, covering the fundamental aspects of the modern power systems and energy conversion technologies that are core in renewable generation and energy storage. You’ll also select three modules (from a choice of six options) to study ‘non-electrical’ technologies that are crucial to the safe and reliable operation of power and energy systems. Alongside the taught modules, you’ll carry out a supervised research/development project that is relevant to real-world industrial needs.

Course Structure

The MSc degree (totalling 180 credits) comprises:
-Eight taught modules (15 credits each), five core modules and three optional modules (see below)
-A research project worth 60 credits (see below)

Core modules

-Electrical Machines and Drives
-Fuel Cells and Energy Storage
-Operation and Control of Power Systems
-Power Electronic Converters and Devices
-Renewable Energy from the Environment

Optional modules (choose 3)

-ASICs, MEMS and Smart Devices
-Heat Transfer Theory and Design
-Optical Communication Systems
-Signal & Image Processing
-Systems Modelling and Simulation
-Antenna, Propagation and Wireless Communication Theory

Individual project

The individual research project is an in-depth experimental, theoretical or computational investigation of a topic chosen by you in conjunction with an academic supervisor.

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The Centre for Doctoral Training in Sustainable Materials and ManufacturingThe Centre for Doctoral Training in Sustainable Materials and Manufacturing is a partnership between the Universities of Warwick, Exeter and Cranfield, with support from the Engineering and Physical Sciences Research Council (EPSRC) and partner companies. Read more

About the Programme

The Centre for Doctoral Training in Sustainable Materials and ManufacturingThe Centre for Doctoral Training in Sustainable Materials and Manufacturing is a partnership between the Universities of Warwick, Exeter and Cranfield, with support from the Engineering and Physical Sciences Research Council (EPSRC) and partner companies

The Centre offers a challenging 4-year International Engineering Doctorate (EngD Int) programme in Sustainable Materials and Manufacturing with research projects that address industry-driven challenges. For example: establishing natural or recovered materials as feed-stocks, reducing process inputs and outputs without compromising performance or economic viability, extracting high value materials from waste streams, and ultimately establishing economic and environmental sustainability

The EngD International programme combines both academic and industrial expertise; offering industry relevant research projects supported by partner companies, taught modules resulting in an embedded MSc in Sustainable Materials and Manufacturing, and an international placement with our academic and industrial partners overseas.

Doctoral students will be based at either Warwick, Cranfield, or Exeter (depending on the research project they undertake), where they will be part of a leading research group and will be supervised by an academic in that institution and a mentor in their sponsor company. The research focus will be on the real commercial challenges faced by their sponsor company and students will split their time between their home university and the company. Students will also study taught modules at all three institutions.

Funding

The studentships on offer will start from January 2015 and comprise a tax-free stipend of circa £19,000 a year, tuition fees paid and a generous study package (research consumables and travel budget).

Applications

Applications are open for talented researchers to further develop their technical and transferable skills within a research and training environment shaped by the needs of the manufacturing industry.

See our website or follow us on Twitter @wmg_doctorate for the latest information on potential research projects.

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The MSc in Cyber Security Engineering is designed for those wishing to develop a career as a cyber security professional. Cyberspace comprises the network of digital devices, used to store, modify and communicate information. Read more

Designed for

The MSc in Cyber Security Engineering is designed for those wishing to develop a career as a cyber security professional.

Cyber Security

Cyberspace comprises the network of digital devices, used to store, modify and communicate information. It is global, interactive and completely changes our environment. It extends beyond the Internet, mediating interaction between individuals and groups.
Our world is increasingly shaped by cyberspace. Opportunities for interaction are emerging in ways, only imagined by previous generations. As the influence of cyberspace in our lives continues to grow, so does the associated security risk.
As organisations worldwide harness the opportunities of cyberspace, they create huge demand for cyber security professionals. Cyber security professionals who can function at various strata within an organisation - server room, operations room, board room - you choose. Their task is beguilingly simple: enable the good and prevent the bad.

GCHQ Certification

GCHQ, the UK government's National Technical Authority for Information Assurance, identified the shortage of cyber professionals as a concern that needed to be addressed. Part of their strategy was to identify cyber security master's courses that would "... help prospective students make better informed decisions when looking for a highly valued cyber security qualification".

Course Content

You will study a broad range of cyber security topics. Some focus on technology, some on people, some on organisations. Insofar as possible, we seek to avoid teaching topics in silos of narrow expertise. Throughout, the practical application of insight is valued equally with abstract analytical skill. The following should give you a sense of the course content:
◾Cryptography
◾Counterfeiting
◾Risk
◾Digital forensics
◾Governance
◾Data protection
◾Network security
◾Intelligence
◾The enterprise cyber perspective
◾Security architecture
◾Industrial espionage
◾Cyber-physical systems
◾Standards and guidance
◾Cyber security research

Teaching Style

Tutors adopt their own distinctive style within their taught weeks. Most modules are taught by more than one tutor, which, together with the wide range of guest speakers, gives real breadth of insight into any topic. The external input is especially evident in the Enterprise Cyber Security module where colleagues from IBM make a substantial contribution to the week's activities.

After You Graduate

Graduates can expect rapid career progression in within a wide range of organisations relating to cyber security in a range of roles.

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WMG has an established legacy of leading automotive research in close collaboration with industry. This degree provides a holistic understanding of the different technology options and methods for design, system integration, and verification that will drive the market introduction of new energy efficient vehicles. Read more
WMG has an established legacy of leading automotive research in close collaboration with industry. This degree provides a holistic understanding of the different technology options and methods for design, system integration, and verification that will drive the market introduction of new energy efficient vehicles.

Designed for

This course is ideally suited to those aspiring to become research managers and technology leaders within the strategically important areas of vehicle electrification and sustainability. You will have the management skills, technical awareness, and vision to assess different technology options within the context of environmental legislation and consumer expectations for vehicle quality, reliability, and performance.

The Course Provides

You will develop the skills to design and evaluate the next generation of automotive products that have a lower environmental impact than conventional vehicles. You will learn the latest innovations in research, technology management, and leadership that are pre-requisite for career progression within the international automotive industry.

Course Content

Core Modules:
1. Automotive Hybridisation and Electrification
2. Energy Storage and High Voltage Automotive Systems
3. Propulsion Technology for Hybrid and Electric Vehicle Applications
4. Lightweight Materials and Structures
5. Systems Modelling and Simulation

Plus four elective modules from the full list of modules, where there is a list of nine recommended modules to choose.

Learning Style

The taught component of the course consists of lectures, workshops, practicals, demonstrations, problem classess, syndicate exercises, and a review.

Module leaders are experts in their fields and are supported by external speakers working in organisations at the forefront of their fields.

Assessment is through post module assignment (PMA) rather than exam and is based on the learning objectives of each module. Your PMA should take around 60 hours of work and consolidate the knowledge you have gained from the module.

Industrial visits are available to all students and the course is assessed through assignments.

Each module will usually last one week.

After You Graduate

This programme has extensive industry support from national and international companies. As an SAE graduate, you can expect to take a leadership role with a vehicle manufacturer or specialist supplier. The programme is ideally suited to those aspiring to become research managers and technology leaders within the strategically important areas of vehicle electrification and sustainability.

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Are you a recent graduate, scientist, engineer or manager looking to develop your professional skills in multidisciplinary biotechnology and eager for a future in related sectors? The MSc in Biotechnology,. Read more
Are you a recent graduate, scientist, engineer or manager looking to develop your professional skills in multidisciplinary biotechnology and eager for a future in related sectors? The MSc in Biotechnology,
Bioprocessing and Business Management opens the door to these opportunities.

The course is delivered in partnership with our industry partners and Warwick Business School. During your studies you’ll develop a new sense of business acumen and gain in-depth knowledge of the underlying science and processing technologies. You’ll have access to specialised language classes, as well as a personal mentor who will help to improve your academic writing.

When you graduate, you’ll be ready to enter managerial and academic roles in several sectors, including the pharmaceutical industry, whether in large multinational companies or small to medium-sized enterprises.

Course structure

The course is a full time, twelve month taught programme with modular content, based around three strands:-
-Business Management
-Biotechnology & Molecular Biology
-Bioprocessing

The course programme focuses on:
-Manufacture of biochemicals, pharmaceuticals, devices and materials
-Genetic engineering and the fundamentals of biotechnology
-Business management, economics and finance
-Marketing management
-Commercialisation of products, IP
-Food, biotechnology and microbiological processing
-Fuels and energy
-Industries based on renewable and sustainable resources
-Production technologies
-Plant design and economic analysis

Students will be required to complete nine core modules. They must also select a further three elective modules. Teaching will be by interactive lectures, short question & answer sessions and small group interactive workshops/tutorials. Individual and team learning will be used for case study analysis.

All students will be required to undertake a project dissertation. Students will be encouraged to propose their own project title (selection subject to availability of an appropriate supervisor) although a range of potential titles will be offered. Projects will be non-laboratory based and generally undertaken at the University of Warwick under the supervision of an approved tutor.

Core Modules

-The fundamentals of biotechnology
-Molecular biology and genetic engineering
-Biochemical engineering
-Bioproduct plant design and economic analysis
-Business strategy
-Accounting and financial management
-Marketing management
-Entrepreneurship & commercialisation
-Biopharmaceutical product & clinical development
-Project

Elective Modules

(Availability dependent on demand)
-Microbiomics & metagenomics
-Environmental protection, risk assessment and safety
-Impact of biotechnology on the use of natural resources
-Fundamental principles of drug discovery
-E-business: Technology and management
-Chemotherapy of infectious disease
-Vaccines and gene therapy
-Laboratory Skills

Assessment

One third of the final mark will be derived from the project dissertation.

Two thirds of the final mark will be derived from assessments of the 9 core and 3 elective modules. Modules will be assessed by means of a combination of written course work, individual/group seminar presentations and a multi-choice or short answer examination. These assessments will take place during or shortly after completion of each module.

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Our EngD (International) is a four year programme that combines industry relevant research, taught courses, group projects,and an international placement. Read more

What is the EngD International?

Our EngD (International) is a four year programme that combines industry relevant research, taught courses, group projects,and an international placement.

The EngD (Int) programme is more vocationally oriented in engineering than a PhD and is better suited to those in industry.

Offered through our EPSRC-sponsored Centre for Doctoral Training in Sustainable Materials and Manufacturing, it combines taught modules and overseas placement opportunities with original research based on real industry problems.

What qualification will I receive?

Students will graduate with both an Engineering Doctorate (International) and an MSc in Sustainable Materials and Manufacturing.

By gaining the knowledge, skills and networks to compete in the global marketplace and applying rigorous analysis, innovative thinking and good management practice you will gain the key competencies vital to becoming a manufacturing leader.

Study Programme

You will be working on a project proposed by a sponsor company. This may be the company you currently work for, or a proposed project by another company for which you can apply. Current available projects can be found on our website

As well as spending much of your time 'in company' researching your project, you will attend taught MSc modules and work on a group project with fellow EngD students.

You will have an academic supervisor from WMG, as well as an industry supervisor in your sponsor company.


For more information call us on 024 7652 4357, email us at or visit our website at http://www.go.warwick.ac.uk/wmgdoctorate

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This programme will appeal if you’re looking to enter a career in the tunnelling and civil engineering industries. Our distinctive course format means that approximately 20% of teaching is delivered by guest lecturers from industry, ensuring that the content remains relevant. Read more
This programme will appeal if you’re looking to enter a career in the tunnelling and civil engineering industries.

Our distinctive course format means that approximately 20% of teaching is delivered by guest lecturers from industry, ensuring that the content remains relevant. Specialist subjects and case studies are also presented by experts with first-hand experience.

Modules include:
-Communication and Leadership
-Construction Management
-Finite Elements for Tunnelling
-Geological Investigation and Ground Characterisation
-Health, Safety and Environmental Considerations
-Rock Mechanics
-Tunnel Design
-Underground Construction Methods

You’ll learn from internationally recognised academics and industry experts on a course uniquely developed in partnership with the British Tunnelling Society. At what is fast becoming the UK’s centre of excellence for tunnelling, we’ll give you the state-of-the-art knowledge, understanding and skills to design and build the underground infrastructure of the future.

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Do you want to help power the world? We’re running out of fossil fuels fast and it’s more important than ever to find new sustainable and renewable sources of energy. Read more
Do you want to help power the world? We’re running out of fossil fuels fast and it’s more important than ever to find new sustainable and renewable sources of energy. This involves meeting challenges such as engineering new technologies and considering how these technologies can be integrated into power distribution networks.

This course will offer you advanced knowledge of a diverse range of sustainable energy technologies, including wind, tidal, solar, fuel cells and biomass. From the fundamental principles to the latest developments in these technologies, you’ll learn about key enabling technologies for energy storage (electrical, electrochemical, mechanical and thermal) and power distribution.

You’ll also develop skills in project management, ethics, and health and safety. These skills will leave you well prepared for an active future career in the energy technology industry or further academic research in the field.

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