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Over the past few years, career opportunities in the digital media sector have increased dramatically. The interactive media industry is reaching maturity and needs qualified professionals able to offer a diverse range of expertise. Read more
Over the past few years, career opportunities in the digital media sector have increased dramatically. The interactive media industry is reaching maturity and needs qualified professionals able to offer a diverse range of expertise. This course addresses those needs and is designed to provide you with skills in interactive media content creation, interactive design, digital media production,social media management, digital media project and account management. In the most recent (2014-15) Destinations of Leavers from Higher Education (DLHE) survey, 100% of graduates from this course were in work or further study within six months.

More about this course

This professionally-oriented course will appeal to graduates with an interest in digital media, experienced professionals from the design, media, public relations and marketing sector wishing to retrain for a career change or promotion, and those wishing to progress towards research and PhD studies. The Masters in Digital Media addresses issues in interactive design, interactive media, the internet and its applications, digital solutions for the industry and the public sector, usability design, effective digital media project management, digital audiences and audience research, social media management, digital media strategy, digital interactive television, mobile communications, and new media ownership. The course will provide skills in the relevant multimedia software.

You will learn how to:
-Assess and select the appropriate tools to produce a digital media project
-Produce digital media projects using the appropriate software applications
-Research and analyse the current issues and future developments in digital media, social media, media communications and e-solutions
-Manage digital media projects and production teams
-Produce digital media and social media strategies
-Appreciate the complexity of the international digital media and creative industries and communicate effectively in a media professional environment
-Apply research, design and management skills to the production of new media projects

Assessment methods include interactive projects, design portfolios, presentations, essays, examinations and reports.

Modular structure

The modules listed below are for the academic year 2016/17 and represent the course modules at this time. Modules and module details (including, but not limited to, location and time) are subject to change over time.

Year 1 modules include:
-Digital Media Project Management (core, 20 credits)
-Principles of Digital Media (core, 20 credits)
-Digital Media Dissertation (alternative core, 60 credits)
-Digital Project (alternative core, 60 credits)
-Accredited Work-Based Learning in the School of MCC (option, 20 credits)
-Advanced English for Masters Studies (option, 20 credits)
-Digital Media Strategy and Consultancy (option, 20 credits)
-Digital Storytelling (option, 20 credits)
-Digital Video Production (option, 20 credits)
-Globalisation (option, 20 credits)
-Interaction Design (option, 20 credits)
-Multimedia Journalism (option, 20 credits)
-Web Design (option, 20 credits)

After the course

The course is particularly suited to students looking to work in: web design; UX design, interactive media production; digital video production; new media project management and account handling; consultancy and policy advice in the area of digital media and communication technology; social media management; digital media strategy, training and research in related fields; electronic publishing; online journalism and broadcasting; administration, management and research in digital media, digital advertising and marketing and digital information industries.

Moving to one campus

Between 2016 and 2020 we're investing £125 million in the London Metropolitan University campus, moving all of our activity to our current Holloway campus in Islington, north London. This will mean the teaching location of some courses will change over time.

Whether you will be affected will depend on the duration of your course, when you start and your mode of study. The earliest moves affecting new students will be in September 2017. This may mean you begin your course at one location, but over the duration of the course you are relocated to one of our other campuses. Our intention is that no full-time student will change campus more than once during a course of typical duration.

All students will benefit from our move to one campus, which will allow us to develop state-of-the-art facilities, flexible teaching areas and stunning social spaces.

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This degree mirrors the two-year Masters programme structure that is common in the USA, and is an ideal stepping stone to a PhD or a career in industry. Read more
This degree mirrors the two-year Masters programme structure that is common in the USA, and is an ideal stepping stone to a PhD or a career in industry.

The optional professional placement component gives you the opportunity to gain experience from working in industry, which cannot normally be offered by the standard technically-focused one-year Masters programme.

PROGRAMME OVERVIEW

The Electronic Engineering Euromasters programme is designed for electronic engineering graduates and professionals with an interest in gaining further qualifications in advanced, cutting-edge techniques and technologies. Current pathways offered include:
-Communications Networks and Software
-RF and Microwave Engineering
-Mobile Communications Systems
-Mobile and Satellite Communications
-Mobile Media Communications
-Computer Vision, Robotics and Machine Learning
-Satellite Communications Engineering
-Electronic Engineering
-Space Engineering
-Nanotechnology and Renewable Energy
-Medical Imaging

Please note that at applicant stage, it is necessary to apply for the Electronic Engineering (Euromasters). If you wish to specialise in one of the other pathways mentioned above, you can adjust your Euromaster programme accordingly on starting the course.

PROGRAMME STRUCTURE

This programme is studied full-time over 24 months and part-time over 60 months. It consists of ten taught modules and an extended project. The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.
-Digital Communications
-Digital Signal Processing A
-Object Oriented Design and C++
-RF and Microwave Fundamentals
-Nanoscience and Nanotechnology
-Space Dynamics and Missions
-Space Systems Design
-Antennas and Propagation
-Image Processing and Vision
-Fundamentals of Mobile Communications
-Principles of Telecommunications and Packet Networks
-Space Robotics and Autonomy
-Speech and Audio Processing and Recognition
-Satellite Communication Fundamentals
-Satellite Remote Sensing
-Molecular Electronics
-RF Systems and Circuit Design
-Internet of Things
-Nanofabrication and Characterisation
-Space Avionics
-Applied Mathematics for Communication Systems
-Data and Internet Networking
-Digital Design with VHDL
-Computer Vision and Pattern Recognition
-Mediacasting
-Semiconductor Devices and Optoelectronics
-AI and AI Programming
-Advanced Signal Processing
-Advanced Guidance, Navigation and Control
-Image and Video Compression
-Launch Vehicles and Propulsion
-Advanced Mobile Communication Systems
-Microwave Engineering Optional
-Nanoelectronics and Devices
-Network and Service Management and Control
-Operating Systems for Mobile Systems Programming
-Advanced Satellite Communication Techniques
-Nanophotonics Principles and Engineering
-Mobile Applications and Web Services
-Spacecraft Structures and Mechanisms
-Space Environment and Protection
-Renewable Energy Technologies
-Engineering Professional Studies 1 (with industrial Placement)
-Engineering Professional Studies 1
-Engineering Professional Studies 2
-Extended Project

PARTNERS

The MSc Euromasters complies with the structure defined by the Bologna Agreement, and thus it is in harmony with the Masters programme formats adhered to in European universities. Consequently, it facilitates student exchanges with our partner universities in the Erasmus Exchange programme.

A number of bilateral partnerships exist with partner institutions at which students can undertake their project. Current partnerships held by the Department include the following:
-Brno University of Technology, Czech Republic
-University of Prague, Czech Republic
-Universität di Bologna, Italy
-Universität Politècnica de Catalunya, Barcelona, Spain
-Universita' degli Studi di Napoli Federico II, Italy

EDUCATIONAL AIMS OF THE PROGRAMME

The taught postgraduate degree programmes of the Department are intended both to assist with professional career development within the relevant industry and, for a small number of students, to serve as a precursor to academic research.

Our philosophy is to integrate the acquisition of core engineering and scientific knowledge with the development of key practical skills (where relevant). To fulfil these objectives, the programme aims to:
-Attract well-qualified entrants, with a background in electronic engineering, physical sciences, mathematics, computing and communications, from the UK, Europe and overseas
-Provide participants with advanced knowledge, practical skills and understanding applicable to the MSc degree
-Develop participants' understanding of the underlying science, engineering, and technology, and enhance their ability to relate this to industrial practice
-Develop participants' critical and analytical powers so that they can effectively plan and execute individual research/design/development projects
-Provide a high level of flexibility in programme pattern and exit point
-Provide students with an extensive choice of taught modules, in subjects for which the Department has an international and UK research reputation

A graduate from this MSc programme should:
-Know, understand and be able to apply the fundamental mathematical, scientific and engineering facts and principles that underpin electronic engineering
-Be able to analyse problems within the field of electronic engineering and find solutions
-Be able to use relevant workshop and laboratory tools and equipment, and have experience of using relevant task-specific software packages to perform engineering tasks
-Know, understand and be able to use the basic mathematical, scientific and engineering facts and principles associated with the topics within electronic engineering
-Be aware of the societal and environmental context of his/her engineering activities
-Be aware of commercial, industrial and employment-related practices and issues likely to affect his/her engineering activities
-Be able to carry out research-and-development investigations
-Be able to design electronic circuits and electronic/software products and systems

Enhanced capabilities of MSc (Euromasters) graduates:
-Demonstrate transferable skills such as problem solving, analysis and critical interpretation of data, through the undertaking of the extended 90-credit project
-Know how to take into account constraints such as environmental and sustainability limitations, health and safety and risk assessment
-Have gained comprehensive understanding of design processes
-Understand customer and user needs, including aesthetics, ergonomics and usability
-Have acquired experience in producing an innovative design
-Appreciate the need to identify and manage cost drivers
-Have become familiar with the design process and the methodology of evaluating outcomes
-Have acquired knowledge and understanding of management and business practices
-Have gained the ability to evaluate risks, including commercial risks
-Understand current engineering practice and some appreciation of likely developments
-Have gained extensive understanding of a wide range of engineering materials/components
-Understand appropriate codes of practice and industry standards
-Have become aware of quality issues in the discipline

PROGRAMME LEARNING OUTCOMES

The programme provides opportunities for students to develop and demonstrate knowledge and understanding, skills, qualities and other attributes in the following areas:

General transferable skills
-Be able to use computers and basic IT tools effectively
-Be able to retrieve information from written and electronic sources
-Be able to apply critical but constructive thinking to received information
-Be able to study and learn effectively
-Be able to communicate effectively in writing and by oral presentations
-Be able to present quantitative data effectively, using appropriate methods
-Be able to manage own time and resources
-Be able to develop, monitor and update a plan, in the light of changing circumstances
-Be able to reflect on own learning and performance, and plan its development/improvement, as a foundation for life-long learning

Underpinning learning
-Know and understand scientific principles necessary to underpin their education in electronic and electrical engineering, to enable appreciation of its scientific and engineering content, and to support their understanding of historical, current and future developments
-Know and understand the mathematical principles necessary to underpin their education in electronic and electrical engineering and to enable them to apply mathematical methods, tools and notations proficiently in the analysis and solution of engineering problems
-Be able to apply and integrate knowledge and understanding of other engineering disciplines to support study of electronic and electrical engineering

Engineering problem-solving
-Understand electronic and electrical engineering principles and be able to apply them to analyse key engineering processes
-Be able to identify, classify and describe the performance of systems and components through the use of analytical methods and modelling techniques
-Be able to apply mathematical and computer-based models to solve problems in electronic and electrical engineering, and be able to assess the limitations of particular cases
-Use of quantitative methods for problem solving. Be able to apply quantitative methods relevant to electronic and electrical engineering, in order to solve engineering problems
-Understand and be able to apply a systems approach to electronic and electrical engineering problems

Engineering tools
-Have relevant workshop and laboratory skills
-Be able to write simple computer programs, be aware of the nature of microprocessor programming, and be aware of the nature of software design
-Be able to apply computer software packages relevant to electronic and electrical engineering, in order to solve engineering problems

Technical expertise
-Know and understand the facts, concepts, conventions, principles, mathematics and applications of the range of electronic and electrical engineering topics he/she has chosen to study
-Know the characteristics of particular materials, equipment, processes or products
-Have thorough understanding of current practice and limitations, and some appreciation of likely future developments
-Be aware of developing technologies related to electronic and electrical engineering
-Have comprehensive understanding of the scientific principles of electronic engineering and related disciplines
-Have comprehensive knowledge and understanding of mathematical and computer models relevant to electronic and electrical engineering, and an appreciation of their limitations
-Know and understand, at Master's level, the facts, concepts, conventions, principles, mathematics and applications of a range of engineering topics that he/she has chosen to study
-Have extensive knowledge of a wide range of engineering materials and components
-Understand concepts from a range of areas including some from outside engineering, and be able to apply them effectively in engineering projects

Societal and environmental context
-Understand the requirement for engineering activities to promote sustainable development
Be aware of the framework of relevant legal requirements governing engineering activities, including personnel, health, safety and risk (including environmental risk issues
-Understand the need for a high level of professional and ethical conduct in engineering

Employment context
-Know and understand the commercial and economic context of electronic and electrical engineering processes
-Understand the contexts in which engineering knowledge can be applied (e.g. operations and management, technology development, etc.)
-Be aware of the nature of intellectual property
-Understand appropriate codes of practice and industry standards
-Be aware of quality issues
-Be able to apply engineering techniques taking account of a range of commercial and industrial constraints
-Understand the basics of financial accounting procedures relevant to engineering project work
-Be able to make general evaluations of commercial risks through some understanding of the basis of such risks
-Be aware of the framework of relevant legal requirements governing engineering activities, including personnel, health, safety and risk (including environmental risk) issues

Research and development
-Understand the use of technical literature and other information sources
-Be aware of the need, in appropriate cases, for experimentation during scientific investigations and during engineering development
-Be able to use fundamental knowledge to investigate new and emerging technologies
-Be able to extract data pertinent to an unfamiliar problem, and employ this data in solving the problem, using computer-based engineering tools when appropriate
-Be able to work with technical uncertainty

Design
-Understand the nature of the engineering design process
-Investigate and define a problem and identify constraints, including environmental and sustainability limitations, and health and safety and risk assessment issues
-Understand customer and user needs and the importance of considerations such as aesthetics
-Identify and manage cost drivers
-Use creativity to establish innovative solutions
-Ensure fitness for purpose and all aspects of the problem including production, operation, maintenance and disposal
-Manage the design process and evaluate outcomes
-Have wide knowledge and comprehensive understanding of design processes and methodologies and be able to apply and adapt them in unfamiliar situations
-Be able to generate an innovative design for products, systems, components or processes, to fulfil new needs

Project management
-Be able to work as a member of a team
-Be able to exercise leadership in a team
-Be able to work in a multidisciplinary environment
-Know about management techniques that may be used to achieve engineering objectives within the commercial and economic context of engineering processes
-Have extensive knowledge and understanding of management and business practices, and their limitations, and how these may be applied appropriately

GLOBAL OPPORTUNITIES

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.

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This is an advanced practice-based research programme for students wishing to extend their research into the areas of film, photography and electronic arts- http://www.gold.ac.uk/pg/mres-filmmaking-photography-electronic-arts/. Read more
This is an advanced practice-based research programme for students wishing to extend their research into the areas of film, photography and electronic arts- http://www.gold.ac.uk/pg/mres-filmmaking-photography-electronic-arts/

The programme is particularly relevant for students who have an MA degree and are looking to postion and develop their research and practice work.

It will be tailor-made to your individual research area and practice, giving you the opportunity to develop research skills and pursue your own area of interest.

You'll work closely with a personal supervisor to develop your work in the areas of filmmaking, photography and digital arts.

You’ll also receive training and guidance in ethical and legal obligations, and be encouraged to accommodate feminist, anti-racist, decolonising and other appropriate approaches to your chosen subject.

The programme meets the needs of two groups:

students who have completed an MA in Filmmaking, Photography, or Electronic Arts and cognate programmes (for example, our MA in Photography: The Image & Electronic Arts)
film, photography and electronic arts professionals who wish to extend their research-based practice

Contact the department

If you have specific questions about the degree, contact Sean Cubitt.

Structure

A personalised programme
The programme is personalised for each student, and is based on your individual research into your chosen practice. It gives you the opportunity to develop appropriate research skills and to pursue a research practice project of your own design, developed and reworked in discussion with a personal supervisor.

The curriculum is personalised for individual students, but all students will share a common curriculum and receive training and guidance in ethical and legal obligations, and be encouraged to accommodate feminist, anti-racist, decolonising and other appropriate approaches to their chosen subject.

The course will add value to recent MA practice graduates and to film, photography and electronic arts professionals by giving a deeper and more specialised engagement in a major research project supervised by staff experienced in both creative and professional research. Research training will give you the skills to design and complete your own research and to work to research briefs.

All students undertake the Practice-Based Research Methods Seminar in the first term, producing a detailed 5000 word project outline at the end. They will also take in the second term one of a selected range of optional modules to help develop their critical and theoretical awareness. In the first term, they begin work with their personal supervisor on the design and execution of their project. Supervision will determine the specific means used: some students will embark directly on a single piece of work; others may undertake a series of workshop-based activities.

Aims

The programme's subject-specific learning outcomes require you to think critically about a range of issues concerning the media, understood in the widest sense, and to be able to justify their views intellectually and practically. The central outcome will be to design and conduct a substantial practice-based research project.

As appropriate to each individual project, you will be encouraged to analyse, contextualise, historicise, and theorise your chosen medium with reference to key debates in history, sociology, anthropology and philosophy of film and the media. You will learn to produce high quality research under time constraints, by working independently.

All students will develop a range of transferable qualities and skills necessary for employment in related areas. These are described by the Quality Assurance Agency as: ‘the exercise of initiative and personal responsibility, decision-making in complex and unpredictable situations, and the independent learning ability required for continuing professional development’. You will be guided to work independently and to think through the intellectual issues.

Progress is carefully monitored, to make sure that you are making progress towards the achievement of the outcomes. Different kinds of practical and intellectual skills are required for each part of the programme. In consultation with supervisors, you will be guided to the most appropriate practical and intellectual approaches, and to the most appropriate technical and critical sources.

Structure

You take the following modules:

Practice-Based Research Methods (30 credits)
This module provides research methods training for the MRes in Film Photography and Electronic Arts, and may be taken by practice-based students in the MPhil programme in Media and Communications. In all years it will address the legal and ethical constraints operating on research by practice. In any given year, the syllabus will address such topics as technique (colour, composition, editing, post-production, sound-image relations, text-image relations), anti-racist, feminist and decolonial critique; hardware and software studies; environmental impacts of media production, dissemination and exhibition; media critical approaches to art, political economy, and truth. The interests of students and supervisors will guide the selection of specific content of the course in its delivery, whose aim is to inculcate advanced thinking on the making, delivery and audiences for research-based practice.

Research Project (120 credits)
The project in the MRes Film, Photography and Electronic Arts comprises a portfolio of practical work (such as photographs, video, film, installation, websites or other digital/print material) alongside a textual component. The work submitted should be original, and be as integral to the research aims, processes and outcomes of the project as the textual component. The final project as a whole will therefore demonstrate the integration of its practical and research components, so that text and practice reflect critically on each other. The length of the textual element should normally be between 5,000 and 10,000 words. The practical component should be a ‘substantial’ body of work. Given the potential range of media that can be used, and their differing potential relationships with the research process and the textual component, it is impossible to be precise. In the case of film/video it would normally entail the submission of a work (or works) of about 25 minutes in length (or more), but detailed requirements will be worked out on a case-by-case basis.

Students will undertake to design and conduct a substantial practice-based research project in collaboration with their supervisor. The project will be informed by research, as appropriate, into the materials, techniques and critical contexts of production, distribution and exhibition in audiovisual, electronic image and allied arts. As appropriate to each individual project, students will be encouraged to analyse, contextualise, historicise, and theorise their chosen medium with reference to key debates in history, sociology, anthropology and philosophy of film and the media, especially in relation to anti-racist, decolonial, feminist, environmental and other key ethical and political dimensions of their aesthetic practice. They will learn to produce high quality research under pressure, by working independently. The exact conceptual and methodological direction of the research must initially come from the student, though this will be developed and reworked in discussion with the personal supervisor. Areas of research can be drawn from a wide remit, including the full range of media and cultural forms of contemporary societies and may be theoretical or empirical; technically- or more academically-based. Projects which are conceptually coherent, and practicable in their aims and methods can be considered, subject only to the in-house expertise of staff. The module encourages the development of knowledge and skills specific to the production, distribution and exhibition of contemporary media.

Assessment

There are two assessment points:

A: You are required to write one 5,000 word essay linked to the Practice-Based Research Methods seminar. The exact theme and title will be decided in discussion between you and your supervisor and relate to your specialist field of research, but as a guide it will demonstrate your readiness to undertake the project through critical evaluation of legal, ethical, critical and reflexive parameters and functions of practice-based research.

In addition, you will be assessed in the option module you undertake during the Spring Term.

B: The project in the MRes Film, Photography and Electronic Arts comprises a portfolio of practical work (such as photographs, video, film, installation, websites or other digital/print material) alongside a textual component. The work submitted should be original, and be as integral to the research aims, processes and outcomes of the project as the textual component. The final project as a whole will therefore demonstrate the integration of its practical and research components, so that text and practice reflect critically on each other.

Department

We are ranked:
22nd in the world for communication and media studies**
1st in the UK for the quality of our research***

**QS World University Rankings by subject 2015
***Research Excellence Framework 2014, Times Higher Education research intensity subject rankings

We’ve also been ranked by LinkedIn as one of the top graduate universities for media professionals, because so many of our graduates go on to find jobs in the industry.

The department includes some of the top academics in the world for this discipline – the pioneers of media, communications and cultural studies. They actively teach on our programmes, and will introduce you to current research and debate in these areas. And many of our practice tutors are industry professionals active in TV, film, journalism, radio and animation.

We also run EastLondonLines.co.uk – our 24/7 student news website – which gives students the opportunity to gain experience working in a real-time news environment.

And we run regular public events featuring world-renowned writers and practitioners that have recently included Danny Boyle, Gurinda Chadha, Noel Clark and Tessa Ross. So you’ll get to experience the latest developments and debates in the industry.

Skills & Careers

The course is designed to support students who wish to strengthen their opportunities in professional media, including the media industries and creative practice, private sector firms, public sector institutions and civil society organisations with communications departments.

We envisage that a small proportion of graduates will seek careers in teaching, including secondary and higher education, in which case their projects and supervision will be tailored to that end.

Funding

Please visit http://www.gold.ac.uk/pg/fees-funding/ for details.

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Our MSc in Mobile Media Communications is offered by a department recognised for its internationally-leading research in multimedia signal processing and machine learning. Read more
Our MSc in Mobile Media Communications is offered by a department recognised for its internationally-leading research in multimedia signal processing and machine learning.

If you are interested in these fields, and want to receive up-to-date training in emerging technologies, our programme will equip you with the skills and knowledge highly valued by industry.

PROGRAMME OVERVIEW

The delivery of media content relies on many layers of sophisticated signal engineering that can process images, video, speech and audio – and signal processing is at the heart of all multimedia systems.

Our Mobile Media Communications programme explains the algorithms and intricacies surrounding transmission and delivery of audio and video content. Particular emphasis is given to networking and data compression, in addition to the foundations of pattern recognition.

PROGRAMME STRUCTURE

This programme is studied full-time over one academic year and part-time students must study at least two taught technical modules per academic year. It consists of eight taught modules and a standard project. The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.
-Object Oriented Design and C++
-Image Processing and Vision
-Fundamentals of Mobile Communications
-Speech and Audio Processing and Recognition
-Internet of Things
-EEE3007 Data and Internet Networking
-Computer Vision and Pattern Recognition
-Mediacasting
-AI and AI Programming
-Advanced Signal Processing
-Image and Video Compression
-Advanced Mobile Communication Systems
-Standard Project

EDUCATIONAL AIMS OF THE PROGRAMME

The taught postgraduate Degree Programmes of the Department are intended both to assist with professional career development within the relevant industry and, for a small number of students, to serve as a precursor to academic research.

Our philosophy is to integrate the acquisition of core engineering and scientific knowledge with the development of key practical skills (where relevant).

To fulfil these objectives, the programme aims to:
-Attract well-qualified entrants, with a background in Electronic Engineering, Physical Sciences, Mathematics, Computing & Communications, from the UK, Europe and overseas
-Provide participants with advanced knowledge, practical skills and understanding applicable to the MSc degree
-Develop participants' understanding of the underlying science, engineering, and technology, and enhance their ability to relate this to industrial practice
-Develop participants' critical and analytical powers so that they can effectively plan and execute individual research/design/development projects
-Provide a high level of flexibility in programme pattern and exit point
-Provide students with an extensive choice of taught modules, in subjects for which the Department has an international and UK research reputation

Intended capabilities for MSc graduates:
-Underpinning learning– know, understand and be able to apply the fundamental mathematical, scientific and engineering facts and principles that underpin mobile media communications
-Engineering problem solving - be able to analyse problems within the field of mobile media communications and more broadly in electronic engineering and find solutions
-Engineering tools - be able to use relevant workshop and laboratory tools and equipment, and have experience of using relevant task-specific software packages to perform engineering tasks
-Technical expertise - know, understand and be able to use the basic mathematical, scientific and engineering facts and principles associated with the topics within mobile and media communications
-Societal and environmental context - be aware of the societal and environmental context of his/her engineering activities
-Employment context - be aware of commercial, industrial and employment-related practices and issues likely to affect his/her engineering activities
-Research & development investigations - be able to carry out research-and- development investigations
-Design - where relevant, be able to design electronic circuits and electronic/software products and systems

PROGRAMME LEARNING OUTCOMES

General transferable skills
-Be able to use computers and basic IT tools effectively
-Be able to retrieve information from written and electronic sources
-Be able to apply critical but constructive thinking to received information
-Be able to study and learn effectively
-Be able to communicate effectively in writing and by oral presentations
-Be able to present quantitative data effectively, using appropriate methods
-Be able to manage own time and resources
-Be able to develop, monitor and update a plan, in the light of changing circumstances
-Be able to reflect on own learning and performance, and plan its development/improvement, as a foundation for life-long learning

Underpinning learning
-Know and understand scientific principles necessary to underpin their education in electronic and electrical engineering, to enable appreciation of its scientific and engineering content, and to support their understanding of historical, current and future developments
-Know and understand the mathematical principles necessary to underpin their education in electronic and electrical engineering and to enable them to apply mathematical methods, tools and notations proficiently in the analysis and solution of engineering problems
-Be able to apply and integrate knowledge and understanding of other engineering disciplines to support study of electronic and electrical engineering.

Engineering problem-solving
-Understand electronic and electrical engineering principles and be able to apply them to analyse key engineering processes
-Be able to identify, classify and describe the performance of systems and components through the use of analytical methods and modelling techniques
-Be able to apply mathematical and computer-based models to solve problems in electronic and electrical engineering, and be able to assess the limitations of particular cases
-Be able to apply quantitative methods relevant to electronic and electrical engineering, in order to solve engineering problems
-Understand and be able to apply a systems approach to electronic and electrical engineering problems

Engineering tools
-Have relevant workshop and laboratory skills
-Be able to write simple computer programs, be aware of the nature of microprocessor programming, and be aware of the nature of software design
-Be able to apply computer software packages relevant to electronic and electrical engineering, in order to solve engineering problems

Technical expertise
-Know and understand the facts, concepts, conventions, principles, mathematics and applications of the range of electronic and electrical engineering topics he/she has chosen to study
-Know the characteristics of particular materials, equipment, processes or products
-Have thorough understanding of current practice and limitations, and some appreciation of likely future developments
-Be aware of developing technologies related to electronic and electrical engineering
-Have comprehensive understanding of the scientific principles of electronic engineering and related disciplines
-Have comprehensive knowledge and understanding of mathematical and computer models relevant to electronic and electrical engineering, and an appreciation of their limitations
-Know and understand, at Master's level, the facts, concepts, conventions, principles, mathematics and applications of a range of engineering topics that he/she has chosen to study
-Have extensive knowledge of a wide range of engineering materials and components
-Understand concepts from a range of areas including some from outside engineering, and be able to apply them effectively in engineering projects

Societal and environmental context
-Understand the requirement for engineering activities to promote sustainable development
-Be aware of the framework of relevant legal requirements governing engineering activities, including personnel, health, safety and risk (including environmental risk issues
-Understand the need for a high level of professional and ethical conduct in engineering

Employment context
-Know and understand the commercial and economic context of electronic and electrical engineering processes
-Understand the contexts in which engineering knowledge can be applied (e.g. operations and management, technology development, etc.)
-Be aware of the nature of intellectual property
-Understand appropriate codes of practice and industry standards
-Be aware of quality issues
-Be able to apply engineering techniques taking account of a range of commercial and industrial constraints
-Understand the basics of financial accounting procedures relevant to engineering project work
-Be able to make general evaluations of commercial risks through some understanding of the basis of such risks
-Be aware of the framework of relevant legal requirements governing engineering activities, including personnel, health, safety and risk (including environmental risk) issues

Research and development
-Understand the use of technical literature and other information sources
-Be aware of the need, in appropriate cases, for experimentation during scientific investigations and during engineering development
-Be able to use fundamental knowledge to investigate new and emerging technologies
-Be able to extract data pertinent to an unfamiliar problem, and employ this data in solving the problem, using computer-based engineering tools when appropriate
-Be able to work with technical uncertainty

Design
-Understand the nature of the engineering design process
-Investigate and define a problem and identify constraints, including environmental and sustainability limitations, and health and safety and risk assessment issues
-Understand customer and user needs and the importance of considerations such as aesthetics
-Identify and manage cost drivers
-Use creativity to establish innovative solutions
-Ensure fitness for purpose and all aspects of the problem including production, operation, maintenance and disposal
-Manage the design process and evaluate outcomes
-Have wide knowledge and comprehensive understanding of design processes and methodologies and be able to apply and adapt them in unfamiliar situations
-Be able to generate an innovative design for products, systems, components or processes, to fulfil new needs

Project management
-Be able to work as a member of a team
-Be able to exercise leadership in a team
-Be able to work in a multidisciplinary environment
-Know about management techniques that may be used to achieve engineering objectives within the commercial and economic context of engineering processes
-Have extensive knowledge and understanding of management and business practices, and their limitations, and how these may be applied appropriately

GLOBAL OPPORTUNITIES

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.

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This programme challenges the assumptions behind the media and development industries and development studies, and offers new ways of thinking about the issues. Read more
This programme challenges the assumptions behind the media and development industries and development studies, and offers new ways of thinking about the issues. The approach balances critical theoretical analysis of the hegemony implied by the ideas and practices of development with the practical issues surrounding the use of contemporary media, including notably digital technologies.

It draws on media theory, practical knowledge and experience, alongside critical debates within and about development, to challenge assumptions about the role of media and development industries. Students combine critical theoretical analysis of the role of media in development with a focus on practical issues surrounding the use of media, including digital technologies.

The programme differs from other degrees in the field by placing the onus on the role of media to further the Development agenda, especially post the Second World War. Students benefit from the unique position of the Centre for Media Studies as a specialist institution for the study of media in the global south.

It is designed for those with an interest in global media and development, including media and development professionals seeking alternative ways of thinking about their roles. It provides an excellent foundation for MPhil/PhD research.

Visit the website http://www.soas.ac.uk/media-studies/ma-media-and-development/

Teaching & Learning

- Learning Outcomes

Knowledge:

1. How to assess data and evidence critically from texts, manuscripts, audio and video sources, both analog and digital, solve problems of conflicting sources and conflicting interpretations, develop skills in critical judgements of complex source materials, locate materials in print and on line, use research resources (particularly research library catalogues and websites) and other relevant traditional and electronic sources.

2. Knowledge and understanding of the dynamics and debates about the role of media and Information Communication Technologies in the development process: to be able to critically examine the discourses of development, the roles of national and international organizations, NGOs, citizens in defining and producing development and the emergence of critical and alternative paradigms for sustainable societies; to be aware of the key theoretical issues surrounding the role of media and Information Communication Technologies in development processes; to be able to analytically disaggregate economic, political, social and cultural strands of development and the nature of mediated practices within each; develop awareness of emergent models of sustainable development in which contemporary media practices play a key role; analyze the role of the media in hegemonic representations of social change and development.

Intellectual (thinking) skills:

1. To be critical and precise in their assessment of evidence, and to understand through practice what documents and electronic sources can and cannot tell us. Such skills should improve and be refined throughout the programme.

2. Question theories and interpretations, however authoritative, and critically reassess evidence for themselves. Students will learn how to question and challenge the accepted tenets both of development and media as the means of transmission of messages. These skills should improve and be refined throughout the programme.

3. Critically interrogate situated empirical examples of specific media and Information Communication Technologies practices in development contexts in Asia, Africa, Middle East

Subject-based practical skills:

1. Communicate effectively in writing

2. Retrieve, sift and select information from a variety of conventional and electronic sources

3. Communicate orally to a group. Listen and discuss ideas introduced during seminars and classes.

4. Practise research techniques in a variety of specialized research libraries and institutes.

5. Have developed some new competencies in digital media production and dissemination

Transferable skills:

1. Write good essays and dissertations

2. Structure and communicate ideas effectively both orally and in writing

3. Understand unconventional ideas

4. Study a variety of written and digital materials, in libraries, on line and research libraries of a kind they will not have used as undergraduates.

5. Present material orally to a group.

6. Have developed a range of on-line competencies

Employment

As well as academic expertise, MA Media in Development graduates from SOAS gain a portfolio of widely transferable skills which employers seek. These include; written and oral communication skills, attention to detail, analytical and problem-solving skills and the ability to research, amass and order information from a variety of sources. This postgraduate degree provides students with a body of work and a diverse range of skills that they can use to market themselves with when they graduate.

For more information about Graduate Destinations from this department, please visit the Careers Service website (http://www.soas.ac.uk/careers/graduate-destinations/).

Find out how to apply here - http://www.soas.ac.uk/admissions/pg/howtoapply/

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Media is all around us and pervades our lives. Whether it's online content, television, print journalism, radio or PR, we can now instantly access media from wherever we are in the world. Read more
Media is all around us and pervades our lives. Whether it's online content, television, print journalism, radio or PR, we can now instantly access media from wherever we are in the world.

Media and place are at the heart of your course and we are dedicated to developing your understanding of media in all of its forms. You will explore the different uses of media and its spatial and cultural influences.

You'll enhance your knowledge of fast-evolving issues, including changing audiences, citizen journalism and the relationship between different media.

Our passion for media means we are dedicated to providing a learning environment which meets your interests and aspirations. Whether it's advanced media theory, increasing footfall at a local art gallery orwriting content for a website, your modules, assessments and major project can often be personalised.

Visit the website http://courses.leedsbeckett.ac.uk/media_ma

Mature Applicants

Our University welcomes applications from mature applicants who demonstrate academic potential. We usually require some evidence of recent academic study, for example completion of an access course, however recent relevant work experience may also be considered. Please note that for some of our professional courses all applicants will need to meet the specified entry criteria and in these cases work experience cannot be considered in lieu.

If you wish to apply through this route you should refer to our University Recognition of Prior Learning policy that is available on our website (http://www.leedsbeckett.ac.uk/studenthub/recognition-of-prior-learning.htm).

Please note that all applicants to our University are required to meet our standard English language requirement of GCSE grade C or equivalent, variations to this will be listed on the individual course entry requirements.

Careers

You will graduate with the expertise to understand media and different audiences. You will have developed your talents in writing for media, with the awareness to respond to spatial, cultural and technological change. Roles in PR, advertising, marketing, social media, branding, television and radio will be available to you, while starting your own business, PhD research or a career as a university lecturer will also be options.

- Marketing Executive
- Senior Journalist
- Media Planner
- Public Relations Executive

Careers advice: The dedicated Jobs and Careers team offers expert advice and a host of resources to help you choose and gain employment. Whether you're in your first or final year, you can speak to members of staff from our Careers Office who can offer you advice from writing a CV to searching for jobs.

Visit the careers site - https://www.leedsbeckett.ac.uk/employability/jobs-careers-support.htm

Course Benefits

There are opportunities to take part in visits to a range of destinations such as Yorkshire Sculpture Park - studying the history of it as a place, changing use of land and community development through culture - and the BBC in Salford, focusing on the relation between the corporation and local area.

At the end of each year you will attend a summer school which is dedicated to helping you consolidate your learning. It is an opportunity to benefit from the expertise of our academics, professional tutors, guest experts and your peers in a more informal setting, discussing and presenting a range of media issues.

Depending on the option modules you choose to specialise in, you may also benefit from access to our video equipment, edit suites and audio software.

Core Modules

Researching Culture
An introduction to key skills invaluable to your study, such as research enterprise, working with sources, interdisciplinary approaches to research, digital literacy and communication.

Understanding Media & Place
Explore the geography of media by studying the relationship between media and place through case studies, particularly from the north of the UK.

Major Project
Tailor your course by undertaking a major project in an area of interest to you. You'll study independently, but have the full support of your tutor when you need it.

Media Passions
Explore passions and fan relationships to media and culture.

Adaptations
Examine adaptation in the broadest sense. Not merely of literature to film, for example, but of stage plays to radio, comics to video games and cover versions of original songs.

Option Modules

European Cities & Culture
Consider the relationship between cities and the social, economic, political and cultural policies of local, national and supranational governments and other governing bodies.

Leisure & Cultural Spaces
Examine the importance of leisure and cultural spaces through sociology, cultural geography, cultural studies and leisure theory.

Digital Communications Management
Take a look at digital communication technologies and social media to understand the effects on media, business (corporate communication and corporate reputation) and society.

Online Journalism
In a media world that is increasingly reliant on online media platforms, develop your own online work as well as developing awareness of some of the implications presented by electronic and online media for journalists.

Facilities

- Library
Our libraries are two of the only university libraries in the UK open 24/7 every day of the year. However you like to study, the libraries have got you covered with group study, silent study, extensive e-learning resources and PC suites.

- Broadcasting Place
Broadcasting Place provides students with creative and contemporary learning environments, is packed with the latest technology and is a focal point for new and innovative thinking in the city.

Find out how to apply here - http://www.leedsbeckett.ac.uk/postgraduate/how-to-apply/

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Unprecedented change in communications and media content, forms, technology and policy in the last decade has wide-ranging implications for business, politics, public administration and everyday life. Read more
Unprecedented change in communications and media content, forms, technology and policy in the last decade has wide-ranging implications for business, politics, public administration and everyday life. The Master of Communications and Media Studies builds your understanding of changing global contexts of media and communication practices. You will gain a critically informed understanding of key issues affecting the global communications industry focusing on the challenges posed by the emergence of digital media, globalisation and increasing levels of cross-cultural exchange. Industry engagement through guest speakers, internships, and opportunities for site visits in Australia and abroad will enhance your knowledge and professional competency.

As the most established program of its type in Australia, the Master of Communications and Media Studies has built up a long record of success. Ranked No.19 in the world in the QS World University Rankings by Subject for 2014, the program draws strongly on specialist expertise and focuses on fostering industry ready graduates.

The course is particularly relevant to those employed or seeking employment in communications and media industries (for instance, electronic journalism, policy formulation, public relations, or tourism marketing), as well as those who wish to expand their expertise for teaching purposes or further study.

You will be introduced to the latest developments and research in communications and media – including in social and online media – always with a view to "real world" application. Study units feature guest professional speakers in conjunction with industry focussed field trips to media outlets in Sydney, Melbourne and Shanghai.

In the Master of Communications and Media Studies course, you will have the opportunity to undertake industry internships in Australia and overseas. For example, students in our program have recently completed internships with the United Nations in New York and with Shandong Television in China.

Visit the website http://www.study.monash/courses/find-a-course/2016/communications-and-media-studies-a6003?domestic=true

Course Structure

The course is structured in three parts. Part A. Foundations for advanced communications and media studies, Part B. Core Master's study and Part C. Advanced expertise. All students complete Part B. Depending upon prior qualifications, you may receive credit for Part A or Part C or a combination of the two.

[Note that if you are eligible for credit for prior studies you may elect not to receive the credit.]

PART A. Foundations for advanced communications and media studies
These studies will introduce you to communications and media studies at advanced undergraduate or graduate level. They are intended for students whose previous qualification is not in a cognate field.

PART B. Core Master's study
These studies draw on best practices within the broad realm of communications and media studies practice and research to further your understanding of communications and media systems both locally and globally. Studies focus on the challenges posed by the emergence of digital media, globalisation and increasing levels of cross-cultural exchange.

PART C. Advanced expertise
The focus of these studies is professional or scholarly work that can contribute to a portfolio of professional development. You have two options.

The first option is a program of coursework study where you select the units to suit your own interests. This option includes the opportunity to undertake an internship in the field.

The second option is a 24 point research thesis. Students wishing to use this Masters course as a pathway to a higher degree by research should take this second option.

Students admitted to the course, who have a recognised honours degree in a cognate discipline including humanities or social sciences, will receive credit for Part C, however, should they wish to complete a 24 point research project as part of the course they should consult with the course coordinator.

For more information visit the faculty website - http://www.study.monash/media/links/faculty-websites/arts

Find out how to apply here - http://www.study.monash/courses/find-a-course/2016/communications-and-media-studies-a6003?domestic=true#making-the-application

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If you are intrigued by the acquisition, processing, analysis and understanding of computer vision, this Masters is for you. The programme is offered by Surrey's Department of Electrical and Electronic Engineering, recognised for world-leading research in multimedia signal processing and machine learning. Read more
If you are intrigued by the acquisition, processing, analysis and understanding of computer vision, this Masters is for you.

The programme is offered by Surrey's Department of Electrical and Electronic Engineering, recognised for world-leading research in multimedia signal processing and machine learning.

PROGRAMME OVERVIEW

This degree provides in-depth training for students interested in a career in industry or in research-oriented institutions focused on image and video analysis, and deep learning.

State-of-the-art computer-vision and machine-learning approaches for image and video analysis are covered in the course, as well as low-level image processing methods.

Students also have the chance to substantially expand their programming skills through projects they undertake.

PROGRAMME STRUCTURE

This programme is studied full-time over 12 months and part-time over 48 months. It consists of eight taught modules and a standard project.

The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.
-Digital Signal Processing A
-Object Oriented Design and C++
-Image Processing and Vision
-Space Robotics and Autonomy
-Satellite Remote Sensing
-Computer Vision and Pattern Recognition
-AI and AI Programming
-Advanced Signal Processing
-Image and Video Compression
-Standard Project

EDUCATIONAL AIMS OF THE PROGRAMME

The taught postgraduate degree programmes of the Department of Electronic Engineering are intended both to assist with professional career development within the relevant industry and, for a small number of students, to serve as a precursor to academic research.

Our philosophy is to integrate the acquisition of core engineering and scientific knowledge with the development of key practical skills (where relevant). To fulfil these objectives, the programme aims to:
-Attract well-qualified entrants, with a background in Electronic Engineering, Physical Sciences, Mathematics, Computing and Communications, from the UK, Europe and overseas.
-Provide participants with advanced knowledge, practical skills and understanding applicable to the MSc degree
-Develop participants' understanding of the underlying science, engineering, and technology, and enhance their ability to relate this to industrial practice
-Develop participants' critical and analytical powers so that they can effectively plan and execute individual research/design/development projects
-Provide a high level of flexibility in programme pattern and exit point
-Provide students with an extensive choice of taught modules, in subjects for which the Department has an international and UK research reputation

Intended capabilities for MSc graduates
-Know, understand and be able to apply the fundamental mathematical, scientific and engineering facts and principles that underpin computer vision, machine learning as well as how they can be related to robotics
-Be able to analyse problems within the field computer vision and more broadly in electronic engineering and find solutions
-Be able to use relevant workshop and laboratory tools and equipment, and have experience of using relevant task-specific software packages to perform engineering tasks
-Know, understand and be able to use the basic mathematical, scientific and engineering facts and principles associated with the topics within computer vision, machine learning
-Be aware of the societal and environmental context of his/her engineering activities
-Be aware of commercial, industrial and employment-related practices and issues likely to affect his/her engineering activities
-Be able to carry out research-and-development investigations
-Be able to design electronic circuits and electronic/software products and systems

Technical characteristics of the pathway
This programme in Computer Vision, Robotics and Machine Learning aims to provide a high-quality advanced training in aspects of computer vision for extracting information from image and video content or enhancing its visual quality using machine learning codes.

Computer vision technology uses sophisticated signal processing and data analysis methods to support access to visual information, whether it is for business, security, personal use or entertainment. The core modules cover the fundamentals of how to represent image and video information digitally, including processing, filtering and feature extraction techniques.

An important aspect of the programme is the software implementation of such processes. Students will be able to tailor their learning experience through selection of elective modules to suit their career aspirations.

Key to the programme is cross-linking between core methods and systems for image and video analysis applications. The programme has strong links to current research in the Department of Electronic Engineering’s Centre for Vision, Speech and Signal Processing.

PROGRAMME LEARNING OUTCOMES

The Department's taught postgraduate programmes are designed to enhance the student's technical knowledge in the topics within the field that he/she has chosen to study, and to contribute to the Specific Learning Outcomes set down by the Institution of Engineering and Technology (IET) (which is the Professional Engineering body for electronic and electrical engineering) and to the General Learning Outcomes applicable to all university graduates.

General transferable skills
-Be able to use computers and basic IT tools effectively
-Be able to retrieve information from written and electronic sources
-Be able to apply critical but constructive thinking to received information
-Be able to study and learn effectively
-Be able to communicate effectively in writing and by oral presentations
-Be able to present quantitative data effectively, using appropriate methods

Time and resource management
-Be able to manage own time and resources
-Be able to develop, monitor and update a plan, in the light of changing circumstances
-Be able to reflect on own learning and performance, and plan its development/improvement, as a foundation for life-long learning

Underpinning learning
-Know and understand scientific principles necessary to underpin their education in electronic and electrical engineering, to enable appreciation of its scientific and engineering content, and to support their understanding of historical, current and future developments
-Know and understand the mathematical principles necessary to underpin their education in electronic and electrical engineering and to enable them to apply mathematical methods, tools and notations proficiently in the analysis and solution of engineering problems
-Be able to apply and integrate knowledge and understanding of other engineering disciplines to support study of electronic and electrical engineering

Engineering problem-solving
-Understand electronic and electrical engineering principles and be able to apply them to analyse key engineering processes
-Be able to identify, classify and describe the performance of systems and components through the use of analytical methods and modelling techniques
-Be able to apply mathematical and computer-based models to solve problems in electronic and electrical engineering, and be able to assess the limitations of particular cases
-Be able to apply quantitative methods relevant to electronic and electrical engineering, in order to solve engineering problems
-Understand and be able to apply a systems approach to electronic and electrical engineering problems

Engineering tools
-Have relevant workshop and laboratory skills
-Be able to write simple computer programs, be aware of the nature of microprocessor programming, and be aware of the nature of software design
-Be able to apply computer software packages relevant to electronic and electrical engineering, in order to solve engineering problems

Technical expertise
-Know and understand the facts, concepts, conventions, principles, mathematics and applications of the range of electronic and electrical engineering topics he/she has chosen to study
-Know the characteristics of particular materials, equipment, processes or products
-Have thorough understanding of current practice and limitations, and some appreciation of likely future developments
-Be aware of developing technologies related to electronic and electrical engineering
-Have comprehensive understanding of the scientific principles of electronic engineering and related disciplines
-Have comprehensive knowledge and understanding of mathematical and computer models relevant to electronic and electrical engineering, and an appreciation of their limitations
-Know and understand, at Master's level, the facts, concepts, conventions, principles, mathematics and applications of a range of engineering topics that he/she has chosen to study
-Have extensive knowledge of a wide range of engineering materials and components
-Understand concepts from a range of areas including some from outside engineering, and be able to apply them effectively in engineering projects

Societal and environmental context
-Understand the requirement for engineering activities to promote sustainable development
-Relevant part of: Be aware of the framework of relevant legal requirements governing engineering activities, including personnel, health, safety and risk (including environmental risk issues
-Understand the need for a high level of professional and ethical conduct in engineering

Employment context
-Know and understand the commercial and economic context of electronic and electrical engineering processes
-Understand the contexts in which engineering knowledge can be applied (e.g. operations and management, technology development, etc.)
-Be aware of the nature of intellectual property
-Understand appropriate codes of practice and industry standards
-Be aware of quality issues
-Be able to apply engineering techniques taking account of a range of commercial and industrial constraints
-Understand the basics of financial accounting procedures relevant to engineering project work
-Be able to make general evaluations of commercial risks through some understanding of the basis of such risks
-Be aware of the framework of relevant legal requirements governing engineering activities, including personnel, health, safety and risk (including environmental risk) issues

Research and development
-Understand the use of technical literature and other information sources
-Be aware of the need, in appropriate cases, for experimentation during scientific investigations and during engineering development
-Be able to use fundamental knowledge to investigate new and emerging technologies
-Be able to extract data pertinent to an unfamiliar problem, and employ this data in solving the problem, using computer-based engineering tools when appropriate
-Be able to work with technical uncertainty

Design
-Understand the nature of the engineering design process
-Investigate and define a problem and identify constraints, including environmental and sustainability limitations, and health and safety and risk assessment issues
-Understand customer and user needs and the importance of considerations such as aesthetics
-Identify and manage cost drivers
-Use creativity to establish innovative solutions
-Ensure fitness for purpose and all aspects of the problem including production, operation, maintenance and disposal
-Manage the design process and evaluate outcomes
-Have wide knowledge and comprehensive understanding of design processes and methodologies and be able to apply and adapt them in unfamiliar situations
-Be able to generate an innovative design for products, systems, components or processes, to fulfil new needs

Project management
-Be able to work as a member of a team
-Be able to exercise leadership in a team
-Be able to work in a multidisciplinary environment
-Know about management techniques that may be used to achieve engineering objectives within the commercial and economic context of engineering processes
-Have extensive knowledge and understanding of management and business practices, and their limitations, and how these may be applied appropriately

FACILITIES, EQUIPMENT AND SUPPORT

To support your learning, we hold regular MSc group meetings where any aspect of the programme, technical or non-technical, can be discussed in an informal atmosphere. This allows you to raise any problems that you would like to have addressed and encourages peer-based learning and general group discussion.

We provide computing support with any specialised software required during the programme, for example, Matlab. The Faculty’s student common room is also covered by the University’s open-access wireless network, which makes it a very popular location for individual and group work using laptops and mobile devices.

Specialist experimental and research facilities, for computationally demanding projects or those requiring specialist equipment, are provided by the Centre for Vision, Speech and Signal Processing (CVSSP).

CAREER PROSPECTS

Computer vision specialists are be valuable in all industries that require intelligent processing and interpretation of image and video. This includes industries in directly related fields such as:
-Multimedia indexing and retrieval (Google, Microsoft, Apple)
-Motion capture (Foundry)
-Media production (BBC, Foundry)
-Medical Imaging (Siemens)
-Security and Defence (BAE, EADS, Qinetiq)
-Robotics (SSTL)

Studying for Msc degree in Computer Vision offers variety, challenge and stimulation. It is not just the introduction to a rewarding career, but also offers an intellectually demanding and exciting opportunity to break through boundaries in research.

Many of the most remarkable advancements in the past 60 years have only been possible through the curiosity and ingenuity of engineers. Our graduates have a consistently strong record of gaining employment with leading companies.

Employers value the skills and experience that enable our graduates to make a positive contribution in their jobs from day one.

Our graduates are employed by companies across the electronics, information technology and communications industries. Recent employers include:
-BAE Systems
-BT
-Philips
-Hewlett Packard
-Logica
-Lucent Technologies
-BBC
-Motorola
-NEC Technologies
-Nokia
-Nortel Networks
-Red Hat

INDUSTRIAL COLLABORATIONS

We draw on our industry experience to inform and enrich our teaching, bringing theoretical subjects to life. Our industrial collaborations include:
-Research and technology transfer projects with industrial partners such as the BBC, Foundry, LionHead and BAE
-A number of our academics offer MSc projects in collaboration with our industrial partners

RESEARCH PERSPECTIVES

This course gives an excellent preparation for continuing onto PhD studies in computer vision related domains.

GLOBAL OPPORTUNITIES

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.

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Taught by internationally-recognised experts in the University’s Advanced Technology Institute (ATI), this programme will see you discover the practical implementation of nanoscience and quantum engineering, nanomaterials, nanotechnology for renewable energy generation and storage. Read more
Taught by internationally-recognised experts in the University’s Advanced Technology Institute (ATI), this programme will see you discover the practical implementation of nanoscience and quantum engineering, nanomaterials, nanotechnology for renewable energy generation and storage.

You will gain specialised skills through an individual research project within our research groups, using state-of-the-art equipment and facilities.

PROGRAMME OVERVIEW

The programme's broad theme is the practical implementation of nanoscience and quantum engineering, nanomaterials and nanotechnology.

The programme covers the fundamentals behind nanotechnology and moves on to discuss its implementation using nanomaterials – such as graphene – and the use of advanced tools of nanotechnology which allow us to see at the nanoscale, before discussing future trends and applications for energy generation and storage.

You will gain specialised, practical skills through an individual research project within our research groups, using state-of-the-art equipment and facilities. Completion of the programme will provide you with the skills essential to furthering your career in this rapidly emerging field.

The delivery of media content relies on many layers of sophisticated signal engineering that can process images, video, speech and audio – and signal processing is at the heart of all multimedia systems.

Our Mobile Media Communications programme explains the algorithms and intricacies surrounding transmission and delivery of audio and video content. Particular emphasis is given to networking and data compression, in addition to the foundations of pattern recognition.

PROGRAMME STRUCTURE

This programme is studied full-time over one academic year and part-time students must study at least two taught technical modules per academic year. It consists of eight taught modules and an extended project. The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.
-RF and Microwave Fundamentals
-Nanoscience and Nanotechnology
-Molecular Electronics
-RF Systems and Circuit Design
-Nanofabrication and Characterisation
-Energy Economics and Technology
-Semiconductor Devices and Optoelectronics
-Microwave Engineering
-Nanoelectronics and Devices
-Nanophotonics Principles and Engineering
-Renewable Energy Technology
-Engineering Professional Studies 1
-Engineering Professional Studies 2
-Extended Project

NANOTECHNOLOGY AT SURREY

We are one of the leading institutions developing nanotechnology and the next generation of materials and nanoelectronic devices.

Taught by internationally-recognised experts within the University’s Advanced Technology Institute (ATI), on this programme you will discover the practical implementation of nanoscience and quantum engineering, nanomaterials and nanotechnology.

You will gain specialised skills through an individual research project within our research groups, using state-of- the-art equipment and facilities.

The ATI is a £10 million investment in advanced research and is the flagship institute of the University of Surrey in the area of nanotechnology and nanomaterials. The ATI brings together under one roof the major research activities of the University from the Department of Electronic Engineering and the Department of Physics in the area of nanotechnology and electronic devices.

EDUCATIONAL AIMS OF THE PROGRAMME

The taught postgraduate Degree Programmes of the Department are intended both to assist with professional career development within the relevant industry and, for a small number of students, to serve as a precursor to academic research.

Our philosophy is to integrate the acquisition of core engineering and scientific knowledge with the development of key practical skills (where relevant).

To fulfil these objectives, the programme aims to:
-Attract well-qualified entrants, with a background in Electronic Engineering, Physical Sciences, Mathematics, Computing and Communications, from the UK, Europe and overseas
-Provide participants with advanced knowledge, practical skills and understanding applicable to the MSc degree
-Develop participants' understanding of the underlying science, engineering, and technology, and enhance their ability to relate this to industrial practice
-Develop participants' critical and analytical powers so that they can effectively plan and execute individual research/design/development projects
-Provide a high level of flexibility in programme pattern and exit point
-Provide students with an extensive choice of taught modules, in subjects for which the Department has an international and UK research reputation

Intended capabilities for MSc graduates:
-Underpinning learning – know, understand and be able to apply the fundamental mathematical, scientific and engineering facts and principles that underpin Nanoscience and nanotechnology for renewable systems
-Engineering problem solving - be able to analyse problems within the field of nanoscience and nanotechnology and more broadly in electronic engineering and find solutions
-Engineering tools - be able to use relevant workshop and laboratory tools and equipment, and have experience of using relevant task-specific software packages to perform engineering tasks
-Technical expertise - know, understand and be able to use the basic mathematical, scientific and engineering facts and principles associated with the topics within Nanoscience, nanotechnology and nanoelectronics for renewable energy
-Societal and environmental context - be aware of the societal and environmental context of his/her engineering activities
-Employment context - be aware of commercial, industrial and employment-related practices and issues likely to affect his/her engineering activities
-Research and development investigations - be able to carry out research-and- development investigations
-Design - where relevant, be able to design electronic circuits and electronic/software products and systems
-Demonstrate transferable skills such as problem solving, analysis and critical interpretation of data, through the undertaking of the extended 90-credit project
-Know how to take into account constraints such as environmental and sustainability limitations, health and safety and risk assessment
-Have gained comprehensive understanding of design processes
-Understand customer and user needs, including aesthetics, ergonomics and usability.
-Have acquired experience in producing an innovative design
-Appreciate the need to identify and manage cost drivers
-Have become familiar with the design process and the methodology of evaluating outcomes
-Have acquired knowledge and understanding of management and business practices
-Have gained the ability to evaluate risks, including commercial risks
-Understand current engineering practice and some appreciation of likely developments
-Have gained extensive understanding of a wide range of engineering materials/components
-Understand appropriate codes of practice and industry standards
-Have become aware of quality issues in the discipline

PROGRAMME LEARNING OUTCOMES

General transferable skills
-Be able to use computers and basic IT tools effectively
-Be able to retrieve information from written and electronic sources
-Be able to apply critical but constructive thinking to received information
-Be able to study and learn effectively
-Be able to communicate effectively in writing and by oral presentations
-Be able to present quantitative data effectively, using appropriate methods
-Be able to manage own time and resources
-Be able to develop, monitor and update a plan, in the light of changing circumstances
-Be able to reflect on own learning and performance, and plan its development/improvement, as a foundation for life-long learning

Underpinning learning
-Know and understand scientific principles necessary to underpin their education in electronic and electrical engineering, to enable appreciation of its scientific and engineering content, and to support their understanding of historical, current and future developments
-Know and understand the mathematical principles necessary to underpin their education in electronic and electrical engineering and to enable them to apply mathematical methods, tools and notations proficiently in the analysis and solution of engineering problems
-Be able to apply and integrate knowledge and understanding of other engineering disciplines to support study of electronic and electrical engineering.

Engineering problem-solving
-Understand electronic and electrical engineering principles and be able to apply them to analyse key engineering processes
-Be able to identify, classify and describe the performance of systems and components through the use of analytical methods and modelling techniques
-Be able to apply mathematical and computer-based models to solve problems in electronic and electrical engineering, and be able to assess the limitations of particular cases
-Be able to apply quantitative methods relevant to electronic and electrical engineering, in order to solve engineering problems
-Understand and be able to apply a systems approach to electronic and electrical engineering problems

Engineering tools
-Have relevant workshop and laboratory skills
-Be able to write simple computer programs, be aware of the nature of microprocessor programming, and be aware of the nature of software design
-Be able to apply computer software packages relevant to electronic and electrical engineering, in order to solve engineering problems

Technical expertise
-Know and understand the facts, concepts, conventions, principles, mathematics and applications of the range of electronic and electrical engineering topics he/she has chosen to study
-Know the characteristics of particular materials, equipment, processes or products
-Have thorough understanding of current practice and limitations, and some appreciation of likely future developments
-Be aware of developing technologies related to electronic and electrical engineering
-Have comprehensive understanding of the scientific principles of electronic engineering and related disciplines
-Have comprehensive knowledge and understanding of mathematical and computer models relevant to electronic and electrical engineering, and an appreciation of their limitations
-Know and understand, at Master's level, the facts, concepts, conventions, principles, mathematics and applications of a range of engineering topics that he/she has chosen to study
-Have extensive knowledge of a wide range of engineering materials and components
-Understand concepts from a range of areas including some from outside engineering, and be able to apply them effectively in engineering projects

Societal and environmental context
-Understand the requirement for engineering activities to promote sustainable development
Be aware of the framework of relevant legal requirements governing engineering activities, including personnel, health, safety and risk (including environmental risk issues
-Understand the need for a high level of professional and ethical conduct in engineering

Employment context
-Know and understand the commercial and economic context of electronic and electrical engineering processes
-Understand the contexts in which engineering knowledge can be applied (e.g. operations and management, technology development, etc.)
-Be aware of the nature of intellectual property
-Understand appropriate codes of practice and industry standards
-Be aware of quality issues
-Be able to apply engineering techniques taking account of a range of commercial and industrial constraints
-Understand the basics of financial accounting procedures relevant to engineering project work
-Be able to make general evaluations of commercial risks through some understanding of the basis of such risks
-Be aware of the framework of relevant legal requirements governing engineering activities, including personnel, health, safety and risk (including environmental risk) issues

Research and development
-Understand the use of technical literature and other information sources
-Be aware of the need, in appropriate cases, for experimentation during scientific investigations and during engineering development
-Be able to use fundamental knowledge to investigate new and emerging technologies
-Be able to extract data pertinent to an unfamiliar problem, and employ this data in solving the problem, using computer-based engineering tools when appropriate
-Be able to work with technical uncertainty

Design
-Understand the nature of the engineering design process
-Investigate and define a problem and identify constraints, including environmental and sustainability limitations, and health and safety and risk assessment issues
-Understand customer and user needs and the importance of considerations such as aesthetics
-Identify and manage cost drivers
-Use creativity to establish innovative solutions
-Ensure fitness for purpose and all aspects of the problem including production, operation, maintenance and disposal
-Manage the design process and evaluate outcomes
-Have wide knowledge and comprehensive understanding of design processes and methodologies and be able to apply and adapt them in unfamiliar situations
-Be able to generate an innovative design for products, systems, components or processes, to fulfil new needs

Project management
-Be able to work as a member of a team
-Be able to exercise leadership in a team
-Be able to work in a multidisciplinary environment
-Know about management techniques that may be used to achieve engineering objectives within the commercial and economic context of engineering processes
-Have extensive knowledge and understanding of management and business practices, and their limitations, and how these may be applied appropriately

GLOBAL OPPORTUNITIES

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.

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The course will provide media and communication professionals with an informed and critical perspective on the future of communications, and future researchers and academics will gain advanced skills in media and communications. Read more
The course will provide media and communication professionals with an informed and critical perspective on the future of communications, and future researchers and academics will gain advanced skills in media and communications.

It draws on the expertise of Strathclyde’s internationally-renowned media and communications academic staff, including experts in strategic communication, media and communication theory, media ethics and mediated populism. 

What you’ll study

You'll take four core classes covering the theory, history and practice in communication and media, a research skills class and two option classes in communications. You'll also write a 15,000-word dissertation.

Work placement

The course includes opportunities to produce assessed work with outside clients.

Facilities

You'll have access to a library with more than 400,000 electronic books and 26,000 e-journals, accessible at any time from any device. Electronic resources include e-books, e-journals and other learning materials, alongside electronic databases such as Nexis® and the Communication and Mass Media Complete database.

Guest lectures

The course will feature a variety of guest lectures, and you'll have the opportunity to attend seminars from prominent scholars and practitioners.

Course content

Semester 1 classes
-Communication & Media Theory in an International Context
-Research Skills in Literature, Culture & Communication
-Media and Communication Option

Semester 2 classes
-From Broadcast to Participation: a History of Mediation
-Strategic Communication

Learning & teaching

You'll experience a variety of learning methods, including supervised production exercises. The core classes are based on a blend of lectures, seminar discussion and student-led teaching. Modes of delivery may vary in the option components of the course according to the classes you select. 

Assessment

The course will assessed by an combination of written assignment, group and individual presentation, case study and media production.

Careers

The MLitt in Media and Communication is designed to enhance employment prospects in media, as well as in communication industries such as public relations and corporate communications.

The strategic communication component of the programme will also increase the employability of graduates within the communication sections of other industry sectors, particularly within companies dealing with English-speaking markets.

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The program aims to form Master graduates with a comprehensive and solid scientific and technological background in Electronics Engineering, able to design and to use electronic devices, electronic circuits and electronic systems of any complexity as well as to promote the diffusion of electronic technologies in the fields of human activity where benefits can be envisaged. Read more

Mission and goals

The program aims to form Master graduates with a comprehensive and solid scientific and technological background in Electronics Engineering, able to design and to use electronic devices, electronic circuits and electronic systems of any complexity as well as to promote the diffusion of electronic technologies in the fields of human activity where benefits can be envisaged.
To meet these training needs, the Master of Science in Electronics Engineering bases its roots on a full spectrum of basic courses (mathematics, classical and modern physics, computer science, signal theory, control and communications, basic electronic circuits) that are prerequisites required from the Bachelor, and focuses on the most advanced disciplines in electronic design (analog and digital electronics, solid state physics and devices, microelectronics, optoelectronics, sensors and electronic instrumentation, communications and control systems) to provide a complete and updated preparation. Upon graduating, students will have developed a “design oriented” mindset and acquired a skill to use engineering tools to design solutions to advanced electronic challenges in scientific and technological fields.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/electronics-engineering/

Career opportunities

Thanks to the deep and solid scientific and technological knowledge provided, Master of Science graduates in Electronics Engineering will be able to hold positions of great responsibility, both at technical and management level, in a wide variety of productive contexts:
- Scientific and technological research centers, national and international, public or private;
- Industries of semiconductors, integrated circuits and in general of electronic components;
- Industries of electronic systems and instrumentation, such as consumer electronics (audio, video, telephone, computers, etc.), optoelectronics, biomedical, etc.;
- Electromechanical industries with high technological content such as aeronautics, transportation, aerospace, energy, robotics and plant automation, etc.;
- Work as a freelance in the design and fabrication of custom electronic systems.

Presentation

See http://www.polinternational.polimi.it/uploads/media/Electronics_Engineering_01.pdf
The Master of Science in Electronics Engineering aims to form graduates with a comprehensive and solid scientific and technological knowledge in the field of Electronics, able to design and to use electronic devices, electronic circuits and electronic systems of any complexity as well as to promote the diffusion of electronic technologies in the fields of human activity where benefits can be envisaged. The course focuses on the most advanced aspects of Electronics (analog and digital integrated circuits design, solid state devices, microelectronics, optoelectronic devices and sensors, electronic instrumentation, communications and control systems) to provide a complete and updated professional preparation. Upon graduating, students will have developed a “design oriented” mindset enabling them to successfully deal with the complex needs of today’s industrial system. They will have also acquired a skill to use engineering tools to design solutions to advanced electronic challenges in scientific and technological fields as well as a maturity to hold positions of great responsibility both at technical and management level. The programme is taught in English.

Required background from Bachelor studies

The Master of Science in Electronics Engineering bases its roots on a full spectrum of knowledge that students are expected to have successfully acquired in their Bachelor degree, like advanced mathematics, classical and modern physics, computer science, signal and communication theory, electric circuits and feedback control, basic electronic devices and analog & digital circuit analysis.

Subjects

- Analog & Digital Integrated Circuit Design
- MEMS and Microsensors
- Electronic Systems
- Electron Devices and Microelectronic Technologies
- Signal recovery and Feedback Control
- Optoelectronic Systems and Photonics Devices
- RF Circuit Design
- Power Electronics
- Semiconductor Radiation Detectors
- FPGA & Microcontroller System Design
- Biochip and Electronics Design for Biomedical Instrumentation

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/electronics-engineering/

For contact information see here http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/electronics-engineering/

Find out how to apply here http://www.polinternational.polimi.it/how-to-apply/

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Are you interested in the creative industries? Want to learn more about management and promotional culture?. Read more
Are you interested in the creative industries? Want to learn more about management and promotional culture?

Mass Communication Management at Northumbria offers you an exciting opportunity to study the issues and trends across mass communication platforms such as TV, radio, newspaper, movies, advertising and social media.

You will learn to recognise how these modes of communication are connected and how they relate to ideas and problems in society at both the national and the global level.

You will develop an awareness of the media, communication and cultural industries in the 21st century through research-informed and practical activities as you learn how communication strategies are produced, distributed and consumed.

Applying academic theory to a range of real-world issues, this course also includes training in cultural management, enterprise and leadership, providing you with the skills and confidence to succeed in a range of media and communication industries.

This course is also taught on our London campus. This course can also be started in January - please view this web-page for details: https://www.northumbria.ac.uk/study-at-northumbria/courses/mass-communication-management-dtfmax6/

Learn From The Best

Dr Sarah Ralph is a lecturer in Media and Cultural Studies, and her expertise lies in the realm of empirical methods and approaches to the study of production cultures, media audiences and reception.

Dr Ibrahim Seaga Shaw has a background as a reporter, editor, sub editor and correspondent in Sierra Leone, France and the UK, and brings real-life issues to the classroom.

Dr Gabriel Moreno practiced journalism for 13 years, including as a general and financial news correspondent with Reuters news agency in Mexico City. He was awarded a PhD in Journalism and Mass Communication from Westminster University and is currently involved in research projects involving new media and migration, and social media and environmental communication. He became a fellow of the UK’s Higher Education Academy in December 2015.

Teaching And Assessment

You’ll learn through a mix of theory and practice, including taught sessions, field trips, lectures, seminars and group assignments.

You’ll discover the theories and issues informing real-work examples within a range of media and cultural industries and then put these to use in workshop activities which reinforce the links between theory and practice. You will be encouraged to develop your communication skills by taking an active part in seminars.

The dissertation module provides an opportunity for you to put learning into practice by designing, executing and writing up an original piece of research on a topic negotiated between you and your dissertation supervisor.

You will have the opportunity to go on at least one industry visit and hear from professionals working in a local media organisation. Previous visits have included to sites which represent successful local cultural regeneration such as BALTIC Centre for Contemporary Arts and Sage, Gateshead.

Module Overview
EF0126 - E.S.A.P. in FADSS Level 7 (Optional, 0 Credits)
MP7002 - Advertising and Promotional Cultures (Core, 30 Credits)
MP7003 - Working in Mass Communication Industries (Core, 30 Credits)
MP7004 - Media Dissertation (Core, 60 Credits)
MP7005 - Research Methods (Core, 30 Credits)
VA7006 - Cultural Management, Enterprise & Leadership (Core, 30 Credits)

Learning Environment

Your learning experience is enhanced by new technologies used to deliver and assess your course modules, including online reading lists and electronic submission of assignments. You are also encouraged to use social media to communicate with your peers and students regularly develop module Facebook groups for this purpose.

You will have access to an e-learning portal that provides lecture materials, assessment criteria, handbooks and additional learning materials such as videos, podcasts and news items.

You will have access to state-of-the art facilities such as the university library which has been recognised as being in the top three in the UK (tied with Cambridge University).

As part of the research methods module, you will explore using online forms for survey research, including social media and generic software tools such as Survey Monkey.

If you are an international student, you can develop your literacy and communications skills through English for Specific Academic Purposes.

Research-Rich Learning

Northumbria University is ranked in the UK top 20 for the quality of research outputs in communication, cultural and media studies (REF 2014).

70% of Northumbria’s research in Communication, Cultural and Media Studies is rated as being either world leading or internationally excellent.

The Mass Communication Management course has been designed with the help of industry practitioners so you will be graduating with the latest knowledge and skills required by the creative and media industries.

You will be learning from tutors who are specialists in their disciplines and who are research active at the cutting-edge of their field. Their expertise and industry experience helps to bring theory to life in the classroom.

You will develop your own practical research skills and will be able to demonstrate your own interest in at least one aspect of the wider cultural industry through planning, executing and writing-up an empirically-focused research project.

Give Your Career An Edge

Your course is designed to give you the skills and competencies, theory and practical experience that employers in the media industries are looking for.

You will be encouraged to think like an entrepreneur and to understand the behaviours you need to exhibit in order to succeed in your future career aspirations. Graduates are global citizens who are not afraid to ask the big, challenging questions.

The diverse examples and case studies which are used across the modules provide a good grounding in a range of different media industries, enabling you to be a credible applicant for opportunities in a range of cultural industries.

Taking part in seminar discussions and group activities will encourage you to develop teamwork and a range of other transferable skills including effective communication, relationship-building and personal time management.

Your Future

This course will foster your intellectual curiosity and help you become a reflective and independent thinker, especially on issues, trends, policies, and challenges in mass communication industries in national and global contexts.

You will have the opportunity to develop skills in effectively interrogating ideas to clarify and boost your understanding. This combination of critical knowledge and skills will provide you with an excellent foundation for pursuing your future career.

On graduation, you could progress into a career in advertising, marketing, media or journalism.

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With an ever growing demand for skilled electronic engineers, our course will equip you with the skills and expertise you’ll need to meet the challenges of a constantly changing industrial world. Read more
With an ever growing demand for skilled electronic engineers, our course will equip you with the skills and expertise you’ll need to meet the challenges of a constantly changing industrial world.

Your course will have a new home in Compass House, which will extend our campus along East Road. You’ll have the latest technology at your fingertips and be able to collaborate with other students on innovative projects to hone your skills.

See the website http://www.anglia.ac.uk/study/postgraduate/electronic-and-electrical-engineering

Our course covers a number of contemporary topics, including power electronics, signal processing, renewable systems, holistic modeling of electronic systems and image processing. Building on your previous experience, and with developed practical skills, you’ll leave with the expert knowledge and understanding to practice safely and effectively in a wide range of environments.

Cambridge is home to the Silicon Fen, Europe’s largest high-technology commercial research and development centre. We have excellent, established links with many employers in the sector including:

- ARM Ltd
- British Computer Society
- Cambridge Network
- Cambridge Silicon Radio
- E2V
- Ford Motor Company
- Selex Sensors and Airborne Systems
- South East Essex PCT

Our specially equipped laboratories provide you with the essential tools you need in the field of industrial electronics and microelectronics. Among other features they are equipped with wind and solar energy systems, development boards with FPGA circuits and power electronics modules. You’ll also have access to our CAD laboratories with the very latest software.

This programme is CEng accredited and fulfils the educational requirements for registration as a Chartered Engineer when presented with a CEng accredited Bachelors programme.

See the website http://www.anglia.ac.uk/study/postgraduate/electronic-and-electrical-engineering

Our course is designed to address the challenges of the modern industrial world. It focuses on power electronics, renewable systems, signal processing, holistic modelling of electronic systems and image processing. The main aims of the course are to:
• Meet a local, national and international demand for skilled electronic and electrical engineers.
• Provide an opportunity for students to gain in-depth relevant specialist knowledge in electronics systems design.
• Synthesise formal solutions through the application of specialist knowledge to design and create innovative electronic and electrical circuits.
• Perform and develop objective and critical analysis skills necessary to synthesis effective solutions when presented with a set of specifications.
• Equip you with the appropriate depth in understanding of electronic engineering development tools and techniques.

Upon completion of the course you will be able to:
• Exercise an in-depth understanding of the design mechanisms which can be used to create electronic and electrical designs and critically evaluate their effectiveness.
• Demonstrate an ability to deal with complex and interdependent design issues both systematically and creatively in a sustainability context.
• Analyse and devise strategies to design, evaluate and optimise microelectronics based systems.
• Critically evaluate the tools and techniques required to create microelectronics circuits which satisfy specifications.
• Analyse current research and technical problems within the discipline for further reflection for evaluation and critique.
• Recognise your obligations to function in a professional, moral and ethical way.
• Synthesise original circuit design from a knowledge of current tools, methodologies and strategies.
• Critically survey current and recent practice in the field of electronic and electrical engineering, in a sustainability context, in order to identify examples of best practice and to propose new hypotheses.
• Develop the ability to act autonomously to plan and manage a project through its life cycle, and to reflect on the outcomes.
• Define the goals, parameters and methodology of a research and development activity.

Careers

The possibilities that are open to you range from design or systems engineering, to medical electronics, environmental monitoring, sound technology biophysics or microelectronics. Across industry, whether it’s in process control, construction and building or services, teaching and beyond, there’ll be opportunities to find your own specialist niche.

Core modules

Sustainable Technologies
DSP Applications and ARM® Technology
Digital Systems Design with VHDL and FPGAs
Power Conversion Systems
Remote Sensing and the Internet of Things
Research Methods
Major Project

Assessment

You’ll be assessed through exams and written assignments based on case studies and scenarios.

Facilities

Our Department has specialist laboratories for electronics and microelectronics, equipped with wind and solar energy systems, power electronics modules, development boards with FPGA circuits and more. Our laboratories are designed, maintained, and operated by an in-house team of technical experts. Students also benefit from access to a wide range of central computing and media facilities.

We also operate modern electronic Computer Aided Design labs loaded with the latest software that includes Integrated Synthesis Environment Design Suite, Matlab, Simulink and other relevant software.

Your faculty

The Faculty of Science & Technology is one of the largest of five faculties at Anglia Ruskin University. Whether you choose to study with us full- or part-time, on campus or at a distance, there’s an option whatever your level – from a foundation degree, to a BSc, MSc, PhD or professional doctorate.

Whichever course you pick, you’ll gain the theory and practical skills needed to progress with confidence. Join us and you could find yourself learning in the very latest laboratories or on field trips or work placements with well-known and respected companies. You may even have the opportunity to study abroad.

Everything we do in the faculty has a singular purpose: to provide a world-class environment to create, share and advance knowledge in science and technology fields. This is key to all of our futures.

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This MA gives practitioners and theorists the opportunity to research and develop the new boundaries of image-making made possible by technological change within the context of post-industrial culture- http://www.gold.ac.uk/pg/ma-photography-electronic-arts/. Read more
This MA gives practitioners and theorists the opportunity to research and develop the new boundaries of image-making made possible by technological change within the context of post-industrial culture- http://www.gold.ac.uk/pg/ma-photography-electronic-arts/

This programme joins theory and practice, equipping you to develop and achieve highly effectively in the new image media culture. Practice uses both digital and analogue technology, still and durational as well as the study and production of interactivity.

The programme allows for specialisation in photography and/or electronic arts – which, in addition to still photography, can include interactive, durational and internet work – but encompasses a broader interpretation of practice.

You'll look at the meaning, production and distribution of images, and the relationship between theory and practice in the context of debates about post-modernism and beyond.

You also participate in enabling sessions in photography:

medium/large format cameras
portable and studio lighting technologies and their use
film technology
cinematography
digital imaging
output systems and processes
and/or in electronic arts:

computer and video graphics
post-production
computer-aided design
digital publishing
animation
animatics
2D and 3D computer animation
still and durational image production and manipulation
web construction
interactivity
There is an MRes which follows the MA into a second year, in order to develop your work/voice. This will count as the first year of a PhD. Find out more about the MRes.

Contact the department

If you have specific questions about the degree, contact the convenor Nigel Perkins.

Modules & Structure

This programme uniquely joins theory and practice in a way that will equip you with the tools and the vision to develop and achieve highly effectively in the new image media culture. Practice uses both digital and analogue technology, still and durational as well as the study and production of interactivity.

You will study

Photography: Durational & Still; Analogue & Digital
Electronic Imagery: Motion & Still
Visualisation: Stand-alone & Interactive
The programme draws on a broad range of cultural references and technical practices. It offers the opportunity to take stock of evolving practices and developments in image media culture, and is structured to develop the intellectual imagination within each individual student. This is achieved through a combined study of practice and theory, with extensive instruction through ‘enabling sessions’ which engage technical familiarity; core tutorials; secondary tutorials; Issues in Media and Culture and additional theory course options.

Recognising the rapidly changing definitions and context of these practice areas,and the value/positioning of traditional practices, these categories may also be understood through a variety of practices which involve image construction and presentation both still and durational, including: film/video, animation, interactivity, installations, motion graphics, and hyperspace constructs, as well as evolving new exploratory categories.

The programme provides an opportunity to develop and/or research aspects of visual style, and draw on a broad range of cultural references as well as aesthetic and technical approaches engaged through ‘Practice Theory Sessions’, visiting lectures and the Issues in Media and Culture course. Fundamental to the programme is the space that it creates to make it possible for you to explore, question, change and consolidate your work and your ideas.

Assessment

Original portfolio submission; coursework and essays.

Tutorials

This course is interested in the development of the individual voice. To this end, there are two types of tutorial:

Core tutorials - which deal with overall development
Secondary tutorials - these are tutorials for each specific area of photographic media

Skills

You'll develop specific practice skills to a high level, and the articulation/understanding of the pleasures of media consumption.

Careers

Graduates from the programme are extremely successful, with finalists working commercially, developing as artists or continuing to enlarge their academic knowledge. During the course particular attention is given to the development of the individual voice. This, plus students' exposure to a range of technologies, means that our graduates can step into the arena of their choice, or sometimes of their making.

Here are just some examples of the sorts of careers graduates have gone onto:

Art Director
Artist
Animator
Senior Interactive Designer
Head of Creative Department
Head Technical Creative, Experimental Film and Dance
Commercial Photography (fashion, editorial, photobooks, social, advertising)
Director (commercial narrative)
Director Of Photography
Installation Artist
Interactive Artist
Producer
Curator

Funding

Please visit http://www.gold.ac.uk/pg/fees-funding/ for details.

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The Advanced Electronic Systems Engineering MSc is a broad programme in advanced electronics, reflecting the latest developments in telecommunications, embedded systems, instrumentation and control. Read more
The Advanced Electronic Systems Engineering MSc is a broad programme in advanced electronics, reflecting the latest developments in telecommunications, embedded systems, instrumentation and control.

Despite this considerable breadth, an extensive range of options allows students to tailor the course to suit their individual requirements. The programme enables students to develop advanced skills in various aspects of modern hardware, software and firmware engineering.

The programme reflects the latest developments in electronic system design and illustrates the use of electronic systems technologies in instrumentation, measurement and control. You develop the skills to design and build complex electronic systems, in a wide range of applications, using appropriate technologies and techniques.

We have developed the programme with a number of industrial organisations, which means that successful students will be in a strong position to build a long-term career in this important discipline.

Visit the website https://www.kent.ac.uk/courses/postgraduate/244/advanced-electronic-systems-engineering

About the School of Engineering and Digital Arts

The School successfully combines modern engineering and technology with the exciting field of digital media. Established over 40 years ago, the School has developed a top-quality teaching and research base, receiving excellent ratings in both research and teaching assessments.

The School undertakes high-quality research that has had significant national and international impact, and our expertise allows us to respond rapidly to new developments. Our 30 academic staff and over 130 postgraduate students and research staff provide an ideal focus to effectively support a high level of research activity. We have a thriving student population studying for postgraduate degrees in a friendly, supportive teaching and research environment, with research funding from the Research Councils UK, European research programmes, industrial and commercial companies and government agencies including the Ministry of Defence.

Our Electronic Systems Design Centre and Digital Media Hub provide training and consultancy for a wide range of companies. Many of our research projects are collaborative, and we have well-developed links with institutions worldwide.

Modules

The following modules are indicative of those offered on this programme. This list is based on the current curriculum and may change year to year in response to new curriculum developments and innovation. Most programmes will require you to study a combination of compulsory and optional modules.

EL822 - Communication Networks (15 credits)
EL844 - Fundamentals of Image Analysis (15 credits)
EL849 - Research Methods & Project Design (30 credits)
EL874 - Computer & Reconfigurable Architectures (15 credits)
EL876 - Advanced Control Systems (15 credits)
EL875 - Advanced Instrumentation Systems (15 credits)
EL858 - Advanced Pattern Recognition (15 credits)
EL829 - Embedded Real-Time Operating Systems (15 credits)
EL890 - MSc Project (60 credits)

Assessment

The project module is examined by a presentation and dissertation. The Research Methods and Project Design module is examined by several components of continuous assessment. The other modules are assessed by examinations and smaller components of continuous assessment. MSc students must gain credits from all the modules (180 credits in total). For the PDip, you must gain at least 120 credits in total, and pass certain modules to meet the learning outcomes of the PDip programme. PDip students are not expected to take the MSc project (EL890).

Programme aims

This programme aims to:

- educate graduate engineers and equip them with advanced knowledge of electronic systems for careers in research and development in industry or academia

- produce high-calibre engineers with experience in specialist and complex problem-solving skills and the techniques needed for electronics systems engineering in a number of application areas, including (but not exclusive to) instrumentation, imaging, control and communication systems

- provide you with proper academic guidance and welfare support

- create an atmosphere of co-operation and partnership between staff and students, and offer you an environment where you can develop your potential

- to strengthen and expand opportunities for industrial collaboration with the School of Engineering and Digital Arts.

Careers

Kent has an excellent record for postgraduate employment: over 94% of our postgraduate students who graduated in 2013 found a job or further study opportunity within six months.

We have developed our programmes with a number of industrial organisations, which means that successful students are in a strong position to build a long-term career in this important discipline. You develop the skills and capabilities that employers are looking for, including problem solving, independent thought, report-writing, time management, leadership skills, team-working and good communication.

Building on Kent’s success as the region’s leading institution for student employability, we offer many opportunities for you to gain worthwhile experience and develop the specific skills and aptitudes that employers value.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/

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