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Masters Degrees (Communication Engineer)

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One of the essential ways in which information is transferred and communicated is through text, whether verbal or written. Texts should inform or convince, depending on the communication objectives. Read more

Communication Design

One of the essential ways in which information is transferred and communicated is through text, whether verbal or written. Texts should inform or convince, depending on the communication objectives. Communication designers research different factors that can affect a text in order to create an effective communication tool. These factors can be characteristics of the text, such as style and structure, but also the conversation characteristics and the influence of non-verbal communication.

Furthermore, the context and purpose of a text and how readers process information also play a major role in communication. In the English-taught Master's specialization in Communication Design, you will research how communication processes work and how you can influence these processes effectively. You will learn to analyze texts and tailor them to different target groups and acquire knowledge about how to measure whether in practice a text has the desired effect.

Career Prospects Communication Design

After completing the Communication Design specialization, you will be able to conduct research on the transfer of information through text. Moreover, you will be capable of advising people about writing a clear, attractive and convincing text according to various communication objectives. You can embark on a career in different positions within profit or non-profit organizations, government agencies and related organizations or in the business world.

After graduating, you could also continue your career as an academic researcher in the broad field of communication.

This is a small selection of positions you may apply for after you have completed your programme:
•Communication Design Manager
•Communication Strategist
•Advertising Design Strategist
•Communication Design Engineer
•Device User Experience Design Specialist
•Design Researcher

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This course is designed for students from a variety of engineering backgrounds, to enhance and develop electronic engineering knowledge and skills essential for the modern engineer. Read more
This course is designed for students from a variety of engineering backgrounds, to enhance and develop electronic engineering knowledge and skills essential for the modern engineer.

You will gain expertise and experience in the areas of analogue and digital systems and circuit design using state-of-the-art software and processors. You will gain the in-depth knowledge and skills you need for analysing, modelling and optimising the performance of advanced microelectronic and communication systems. The course covers a broad range of topics including advanced embedded system technologies, digital design automation and silicon electronic design, as well as optical fibre communication systems and wireless communications.

In the second year, for one semester, you’ll undertake an internship, study in another country or join a research group. This valuable experience will enhance your employability and further develop your theoretical and practical skills.

It’s also possible to complete this course in one year without the Advanced Practice element.

Learn From The Best

Our passion for research informs the curriculum and impacts our teaching, ensuring that course content stays current and our academic staffs are amongst the best in the country. The team include published authors and industry experts with research interests including analogue electronics, networking, professionalism in practice, teaching and learning in technology and project management.

The department of Physics and Electrical Engineering is a top-35 research department with 79% of our outputs ranked world-leading or internationally excellent according to the 2014 UK wide Research Excellence Framework. This places us in the top quartile for world-leading publications among UK universities in General Engineering.

Teaching And Assessment

Your progress will be monitored by lecturing staff and advice and appropriate links supplied to improve your learning. Web links are provided for further reading whilst online videos, where appropriate, are available for you to review taught material in your own time. Lecture material is enhanced with laboratory sessions which allow demonstration of theories and exploration of practical problems and limitations.

As a postgraduate student you will be expected to have a responsible and professional approach to learning, accessing the material and support provided and raising any problems with academic staff or your programme leader. You will have an opportunity to take an active role in the operation and content of the course via the departmental programme committee.

The Advanced Practice semester will be assessed via a report and presentation about your internship, study abroad or research group activities.

Module Overview
Year One
KD7019 - Advanced Embedded System Design Technology (Core, 20 Credits)
KD7020 - Digital Design Automation (Core, 20 Credits)
KD7063 - Wireless Communication Systems (Core, 20 Credits)
KD7064 - Optical Communications System (Core, 20 Credits)
KD7066 - Analogue Electronic Design (Core, 20 Credits)
KD7067 - Engineering Research and Project Management (Core, 20 Credits)

Year Two
KD7065 - MSc Engineering Project (Core, 60 Credits)
KF7005 - Engineering and Environment Advanced Practice (Core, 60 Credits)

Learning Environment

Whether your subject matter is renewable energy, astrophysics or communications, our range of specialist and general use facilities will support you. Throughout your work you will be able to measure, explore, experiment and model developments that are changing the way we all live our lives.

Technology to enhance learning in engineering is embedded throughout the course. This takes the form of self-guided exercises, online tests with feedback, assessment feedback and videos and tutorials to support lectures. Self-development and employability are enhanced throughout the course, especially with respect to communicating ideas in written and oral forms, the use of appropriate IT tools, personal time management, problem solving and independent learning skills.

Research-Rich Learning

Our course is at the forefront of current knowledge and practice, shaped by world-leading and internationally excellent research. All the modules are industry or research informed, based upon academic staff industrial experience, consultancy or personal research interests. This allows the knowledge and skills that you will acquire to meet the need and practical application for real world scenarios.

The course is supported by a team of academics who are highly respected by research groups around the world and who make a significant contribution to the faculty and University vision for the future of research within the higher education sector.

Give Your Career An Edge

A strong industrial and research based curriculum enhances your employability by considering real world scenarios in which known solutions are absent. You will be encouraged to research information from professional publications, company literature, etc. to determine innovative and appropriate solutions to these scenarios, enabling you to demonstrate relevant industry practice.

You will also be attached to one of the departmental or faculty research groups for your final dissertation, exposed to and incorporated into a working team and environment. This provides the opportunity for both work-related learning experience and professional career development.

Your Future

The rapid growth of the communications and microelectronics industries has created a strong demand for skilled engineers, who are able to design and manufacture semiconductors and freespace and optical communication systems. The UK Government’s commitment to high-speed broadband means that demand for communications engineers is expected to outstrip supply. UK and international demand for microelectronic engineers remains strong, with salaries reflecting employers’ need to attract the best candidates.

Upon graduation, you will be well-equipped to apply for roles such as communications engineer, electronic/electrical engineer, operational researcher, software engineer and systems developer. You may also consider the wider engineering and information technology sectors, including energy, transport, electronics and telecommunications, defence and manufacturing and engineering management.

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The MSc Industrial Communication and Automation course has been developed with the intention of enabling students who aspire to get a formal Masters degree to develop their skills in this sought after area and attain PROFIBUS certification. Read more

The MSc Industrial Communication and Automation course has been developed with the intention of enabling students who aspire to get a formal Masters degree to develop their skills in this sought after area and attain PROFIBUS certification.

Industrial networks are transforming the way we design plants and factories, automate machines and produce goods. This highly regarded, specialist course covers the key components in industrial networking, communication protocols and advanced automation. Incorporating expertise in the School gained from close industry collaboration, you will study technologies relevant to communications for production and industry. You will learn how machines are networked, how data is managed and how systems operate; as well as how to make industrial processes more energy efficient and optimised for peak productivity and performance. You will also undertake a research project.

Accredited by the Institution of Engineering and Technology on behalf of the Engineering Council as meeting the requirements for Further Learning for registration as a Chartered Engineer. Candidates must hold a CEng accredited BEng/BSc (Hons) undergraduate first degree to comply with full CEng registration requirements.

Features and benefits of the course

-Gain industry recognised qualifications and be a certified PROFIBUS engineer; certified PROFINET engineer; certified PLCopen engineer; certified AS-I engineer. These qualifications are recognised worldwide in the automation industry giving you an extra edge in the UK or the global job market.

-Close industry collaboration: the School of Engineering's Automation Systems Centre hosts the Competence Centre for PROFIBUS International in the UK.

-Excellent laboratory facilities with the latest commercial software and engineering tools.

-You will gain knowledge and skills that are highly sought by employers as the course incorporates latest commercial software and engineering tools.

-Research in the School of Engineering was rated 'internationally excellent' in the Research Excellence Framework (2014).

-The main student intake is in September but it is also possible to begin studying in January.

About the Course

Our engineering Masters programmes are designed to meet the needs of an industry which looks to employ postgraduates who can learn independently and apply critical thinking to real-world problems. Many of the staff who teach in the School also have experience of working in industry and have well-established links and contacts in their industry sector, ensuring your education and training is relevant to future employment.

Assessment details

You will be assessed through a combination of written reports, oral presentations, practical assignments and written examinations.



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This course provides exposure to the wide variety of technical, managerial and organisational issues essential to effective commercial deployment of data communication systems. Read more

About the course

This course provides exposure to the wide variety of technical, managerial and organisational issues essential to effective commercial deployment of data communication systems.

You will develop practical skills through the workshop module, both to reinforce the theory presented in lectures and to gain hands-on experience. In addition to in-depth technical knowledge, the data communications industry also considers project management, team working and presentation skills to be key attributes, which are all developed on the course.

Aims

Data communications is a rapidly expanding sector with exciting career prospects. In this fast moving environment postgraduate qualifications provide a competitive edge in career progression.

This course is aimed at widening and deepening the experience of academically capable graduates and practising engineers, specifically:

Recent graduates in electrical or electronic engineering, computer science, physics and mathematics who wish to deepen their knowledge of the technological, commercial and managerial issues associated with data communication systems
Practicing engineers who wish to update their knowledge.
European and other overseas engineers who wish to broaden their education in the UK.

Course Content

Compulsory Modules:

Advanced Digital Communications
Computer Networks
Communication Networks Security
Network Design and Management
Network Computing
Radio and Optical Communication Systems
Project Management
Research Methods
Project and Dissertation

Special Features

The Electronic and Computer Engineering discipline is one of the largest in the University, with a strong portfolio of research contracts, and has strong links with industry.We have a wide range of research groups, each with a complement of academics and research staff and students. The groups are:

Media Communications
Wireless Networks and Communications
Power Systems
Electronic Systems
Sensors and Instrumentation

The laboratories are well equipped with an excellent range of facilities to support the research work and courses. We have comprehensive computing resources in addition to those offered centrally by the University. The discipline is particularly fortunate in having extensive gifts of software and hardware to enable it to undertake far-reaching design projects.

Women in Engineering and Computing Programme

Brunel’s Women in Engineering and Computing mentoring scheme provides our female students with invaluable help and support from their industry mentors.

Accreditation

The course is accredited by the Institution of Engineering and Technology (IET). This will provide a route to Chartered Engineer status in the UK, if you have a qualifying first degree.

Assessment

Each of the eight course modules is assessed either by formal examination, written assignments or a combination of the two. Hand-in dates for the assignments are specified at the beginning of the academic year.
Examinations are normally taken in January and May. Successful completion of the first part of the programme allows the student to proceed to the dissertation stage. To qualify for the award of the MSc degree the student must submit a satisfactory dissertation.

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Application period/deadline. November 1, 2017 - January 24, 2018. Cutting-edge knowledge in wireless communications both at physical and network layers. Read more

Application period/deadline: November 1, 2017 - January 24, 2018

• Cutting-edge knowledge in wireless communications both at physical and network layers

• Capability to design and implement wireless solutions, e.g., for future 5G networks, Internet-of-Things (IoT) devices and smart energy-efficient wireless sensor applications

• Relevant skills of the latest radio engineering methods, tools, and technologies, and ability to design RF electronics for smart phones and base stations of mobile systems

The International Master’s Degree Programme in Wireless Communications Engineering (WCE) is a two-year programme concentrating on wireless communications network technology. The programme will give you relevant skills and core knowledge of the latest methods, tools and technologies combined with time-tested issues such as:

• Antennas

• Advanced wireless communication systems

• Communication networks

• Computer engineering

• Electronics

• Information theory

• Stochastical and digital signal processing

• Radio channels

• Radio engineering

The two-year programme has two specialisation options:

• Radio Access and Networks

• RF Engineering

Radio Access and Networks concentrates on designing and applying radio access technologies both at physical layer and at network layer for 5G, IoT, and future mobile system generations.

RF Engineering focuses on essential radio system parts and gives the knowledge to design integrated RF and DSP circuits for mobile handsets, base stations, future 5G devices, IoT applications, and smart & energy efficient sensors.

Optional module makes it possible to widen your expertise into:

• Machine vision

• Mobile and social computing

• Signal processors, and

• Video and biomedical signal processing.

The education is organized by the Centre for Wireless Communications which consists of 150 academics from over 20 countries. CWC performs world-class research for the future of 5G and IoT applications, which will give you the possibility to move forward already during your studies. CWC provides a number of jobs as a trainee or a master’s thesis student, with the possibility to continue as a doctoral student, and even as a post-doctoral researcher.

The skills gained in the programme offer you a solid academic training and essential knowledge on the design of wireless communications networks at the system level. After graduation you are capable of designing, implementing and employing 5G and IoT applications and developing future wireless communications technologies.

Possible titles include:

• Chief engineer

• Design engineer

• Development engineer

• Maintenance engineer

• Patent engineer

• Program manager

• Project manager

• Radio network designer

• Research engineer

• RF engineer

• Sales engineer

• System engineer

• Test engineer, and

• University teacher

Students applying for the programme must possess an applicable B.Sc. degree in one of the following fields of study: communications engineering, electronics & electrical engineering, or computer engineering.

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This programme is a specialization of the MA degree in Communication and Information Sciences. As a student of Information Science, you learn to transfer data into accessible and intelligible information. Read more
This programme is a specialization of the MA degree in Communication and Information Sciences.

As a student of Information Science, you learn to transfer data into accessible and intelligible information. You will do research in the domain of language, text and computer-mediated communication.

In this programme, you will analyse information and communication processes between individuals and within organizations. One question is crucial: what options do new technological developments offer to improve information and communication processes?

The Master's programme builds on the knowledge, insights and skills that you have acquired in your Bachelor's degree. You will learn to carry out research independently and handle information in a professional manner. In addition to courses, you will do an internship. You will finish the degree with an independent research project and a Master's thesis.

All courses are taught in English. Deficiency programs are partly taught in Dutch.

Job perspectives

As a graduate, you can work as a web developer, software-engineer, IT-consultant, application developer, researcher or teacher. You have a wide choice of places to work: it goes without saying that you could find a function in a large IT firm, but virtually any other company or organization with an IT department has a need for Information Science specialists. It is also possible to start your own company or become a researcher.

Our former students work in large information technology companies or in information technology departments of companies and governments. Some of them successfully started their own company. Others began an international academic career and have obtained a PhD degree.

Job examples

- Computational linguist
- Information analyst
- Software developer
- Web designer
- IT Consultant
- IT Manager
- Researcher in natural language processing

As student of Information Science you will develop a solid theoretical and practical foundation for carrying out this kind of research. The knowledge you will gain matches well with current job requirements for researchers in the field of Information Science.

Research in Information Science concentrates in Groningen on development, use and evaluation of language and web technology. Good examples are automated search and analysis of information in traditional and new media, dialectology, corpus annotation,gamification, and syntactic and semantic analysis of text. This research is coordinated by the Computational Linguistics group of the Center for Language and Cognition Groningen (CLCG).

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This course aims to provide you with key, advanced level knowledge and skills that will allow you to succeed in the rapidly growing wireless and microwave communication industry. Read more
This course aims to provide you with key, advanced level knowledge and skills that will allow you to succeed in the rapidly growing wireless and microwave communication industry. You will also develop research skills and other related abilities, enhancing your general engineering competency, employability, and providing you with an excellent platform for career development, whether that be within industry or academic research.

In addition, modules delivered by Cardiff University’s internationally recognised Business School will allow you the opportunity to gain valuable skills in entrepreneurship and an insight into what’s involved in starting your own business.

Distinctive features:

• The opportunity to learn in a research-led teaching institution taught by staff in one of the highest ranked university units in the 2014 Research Excellence Framework (REF 2014).

• MSc teaching complemented by guest lectures given by industrial professionals.

• A programme accredited as meeting requirements for Further Learning for a Chartered Engineer (CEng) for candidates who have already acquired a partial CEng accredited undergraduate qualification.

• A unique opportunity to participate in the Alacrity Foundation Programme.

• A programme partially based on a successful and well-established course - Wireless and Microwave Communication Engineering (MSc).

• Specialist modules taught by the Cardiff Business School.

Structure

This course is presented as a one-year, full-time Master's level programme.

The programme takes place over two stages: In Part 1, you follow taught modules to the value of 120 credits, whilst Part 2 consists of a Dissertation or research project based module worth 60 credits.

In the full-time programme, you will undertake taught modules during the first seven months of the programme, and will then proceed to the new venture plan and dissertation stage. At this point, you will also then be able to apply to the Alacrity Foundation to take part in their “boot camp” which helps to equip you with the skills to set up your own business.

Core modules:

Innovation Management
Entrepreneurial Marketing
RF Circuits Design & CAD
Research Case Study
Advanced Communication Systems
Software Tools and Simulation
High Frequency Electronic Materials
HF and RF Engineering
Non-Linear RF Design and Concepts
Dissertation (Electronic)

Optional modules:

Fundamentals of Micro- and Nanotechnology
Optoelectronics
Advanced CAD, Fabrication and Test

Teaching

A wide range of teaching styles will be used to deliver the diverse material forming the curriculum of the programme, and you will be required to attend lectures and participate in examples classes.

A 10-credit module represents approximately 100 hours of study in total, which includes 24–36 hours of contact time with teaching staff. The remaining hours are intended to be for private study, coursework, revision and assessment.

At the dissertation stage, you will be allocated a supervisor in the relevant field of research whom you should expect to meet with regularly. Dissertation topics are presented via the Alacrity Foundation.

Learning Central, the Cardiff University virtual learning environment (VLE), will be used extensively to communicate, support lectures and provide general programme materials such as reading lists and module descriptions. It may also be used to provide self-testing assessment and give feedback.

Assessment

Achievement of learning outcomes in the majority of modules is assessed by a combination of coursework assignments, plus University examinations set in January and May. Examinations count for 60%–70% of assessment in Stage 1 of the programme, depending on the options chosen, the remainder being largely project work and pieces of coursework.

Award of an MSc requires successful completion of Stage 2, the Dissertation, with a mark of 50% or higher.

Career prospects

Career prospects are generally excellent with graduating students following paths either into research, business or related industry. After graduating, a number of students start their own businesses.

In terms of research, Cardiff University has many electrical, electronic and microwave related research areas that require PhD students if you wish to undertake further postgraduate study.

Placements

Applicants to the MSc programme will have the opportunity to make an additional application to the Alacrity Foundation. If successful, the five-month industrial project will be based within the Foundation in Newport and attract a tax-free stipend of £13,800 from month nine of their MSc programme.

Participants will then be required to commit to the Alacrity programme for an additional fifteen months.

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Taught jointly by UCL’s Space & Climate Physics and UCL’s Electronic & Electrical Engineering Departments by expert researchers and engineers in… Read more

Taught jointly by UCL’s Space & Climate Physics and UCL’s Electronic & Electrical Engineering Departments by expert researchers and engineers in the field, this MSc programme aims to provide a broad understanding of the basic principles of space technology and satellite communications together with specialised training in research methods and transferable skills, directly applicable to a career in the public and private space sectors.

About this degree

The Space Technology pathway is focussed on the application of space technology in industrial settings, and therefore has as its main objective to provide a sound knowledge of the underlying principles which form a thorough basis for careers in space technology, satellite communications and related fields. Students develop a thorough understanding of the fundamentals of:

  • spacecraft, satellite communications, the space environment, space operations and space project management
  • the electromagnetics of optical and microwave transmission, and of communication systems modelling
  • a range of subjects relating to spacecraft technology and satellite communications.

Students undertake modules to the value of 180 credits.

The programme consists of three core modules (45 credits), four optional modules (60 credits), a Group Project (15 credits) and an Individual research Project (60 credits).

Core modules

  • Space Science, Environment and Satellite Missions
  • Space Systems Engineering
  • Communications Systems Modelling Type
  • Group Project

Optional modules

  • At least one module from the following:
  • Spacecraft Design – Electronic Sub-systems
  • Mechanical Design of Spacecraft
  • Antennas and Propagation
  • Radar Systems
  • Space-based Communication Systems

  • At least one module from:
  • Space Instrumentation and Applications
  • Space Plasma and Magnetospheric Physics
  • Principles and Practice of Remote Sensing
  • Global Monitoring and Security
  • Space Data Systems and Processing

Dissertation/report

All MSc students undertake an Individual research Project, which normally involves attachment to a research group, and culminates in a report of 10,000–12,000 words.

Teaching and learning

The programme is delivered through a combination of lectures, coursework problem tasks, team-based coursework exercises, presentations and tutorials. Student performance is assessed through unseen written examinations, coursework, and the individual and group projects.

Further information on modules and degree structure is available on the department website: Space Science and Engineering: Space Technology MSc

Funding

STFC and NERC studentships may be available.

For a comprehensive list of the funding opportunities available at UCL, including funding relevant to your nationality, please visit the Scholarships and Funding website.

Careers

The programme aims to prepare students for careers in space research or the space industry, or further research degrees.

Recent career destinations for this degree

  • Chief Executive Officer (CEO), Pushtribe
  • Signal Processing Engineer, Thales UK
  • Junior Consultant, BearingPoint
  • Satellite Communication Engineer, National Space Agency of Kazakhstan

Careers data is taken from the ‘Destinations of Leavers from Higher Education’ survey undertaken by HESA looking at the destinations of UK and EU students in the 2013–2015 graduating cohorts six months after graduation.

Why study this degree at UCL?

UCL Space & Climate Physics, located at the Mullard Space Science Laboratory, is a world-leading research organisation and is the largest university space science group in the UK.

It offers a unique environment at the forefront of space science research, where scientists and research students work alongside top engineers building and testing instruments for space as well as studying the data from these and other spaceborne and ground-based instruments.

The close contact that the laboratory enjoys with space agencies such as ESA and NASA and with industrial research teams encourages the development of transferable skills which enhance job prospects in industrial and research centres in the public and private space sectors.



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Program Brief. The LCT program is an international distributed Master program. Read more

Program Brief

The LCT program is an international distributed Master program. It is designed to meet the demands of industry and research in the rapidly growing field of Language Technology. Research and innovation in Language Technology is vital for many of the smart applications that are pervasive in modern daily life, such as virtual assistants, automatic translation services, search engines, voice-driven technology, social media analytics etc. Language Technology (also known as Computational Linguistics or Natural Language Processing) is an interdisciplinary field at the intersection of Linguistics, Computer Science and Mathematics (logic, probability theory, formal language theory, statistics). Hence, students in this program choose appropriate combinations of modules in Language Technology, Computational and Theoretical Linguistics, and Computer Science. Moreover, the students are able to acquire practice-oriented knowledge through our strong and continuous links with industry through internships, joint industry-academia supervisions, and the like.

Mobility

The program involves studying one year each at two different European partner universities. Optionally, a stay at one of the non-european partners for some months is possible, as well as an internship at any of our industrial partners. After completing all study requirements, the students obtain two Master degrees: one from each of the two European universities where they studied.

Study program

The course consists of compulsory core modules, as well as elective advanced modules in Language Technology and Computer Science, possibly complemented by an internship project, and completed by a Master Thesis.

History

The LCT Masters program has been successfully implemented since 2006, being funding by the Erasmus Mundus Programme from 2007 to 2011 and from 2013 to 2017. In 2012 the LCT Program operated as an Erasmus Mundus Brand Name. Intake 2018: the program commits to respecting the Erasmus Mundus requirements and to maintain the high quality of the implementation during the years of funding.

Key facts:

+ duration 2 years (120 ECTS credits)

+ in-depth theoretical and hands-on instruction in computational linguistics methods and technologies

+ study one year each at two different partner universities in Europe

+ double degree

+ possibility to visit one of two non-European partners for a part of the study

+ language of instruction and academic and administrative support is English

European partners:

1. Saarland University in Saarbruecken, Germany (coordinator)

2. University of Trento, Trento, Italy

3. University of Malta, Malta

4. University of Lorraine, Nancy, France

5. Charles University, Prague, Czech Republic

6. Rijksuniversiteit Groningen, The Netherlands

7. The University of the Basque Country / Euskal Herriko University, San Sebastian, Spain

Non-European partners:

8. Shanghai Jiao Tong University, China

9. The University of Melbourne, Australia

Frequently Asked Questions

You can find answers to our Frequently asked questions here: https://lct-master.org/contents_2014/faq.php


Careers

The LCT program offers education and training opportunities for the next generation of leaders in research and innovation in artificial intelligence as well as language and speech technologies. Examples of jobs held by the LCT alumni include: PhD student; university professor; company founder, data scientist, software engineer, IT consultant, senior analyst, researcher, senior linguist, information extraction engineer, project leader, computational linguist, assistant professor, post-doctoral researcher. 

Visit the European Masters Program Language & Communication Technologies page on the University of Malta website for more details!



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Program Brief. The LCT program is an international distributed Master program. Read more

Program Brief

The LCT program is an international distributed Master program. It is designed to meet the demands of industry and research in the rapidly growing field of Language Technology. Research and innovation in Language Technology is vital for many of the smart applications that are pervasive in modern daily life, such as virtual assistants, automatic translation services, search engines, voice-driven technology, social media analytics etc. Language Technology (also known as Computational Linguistics or Natural Language Processing) is an interdisciplinary field at the intersection of Linguistics, Computer Science and Mathematics (logic, probability theory, formal language theory, statistics). Hence, students in this program choose appropriate combinations of modules in Language Technology, Computational and Theoretical Linguistics, and Computer Science. Moreover, the students are able to acquire practice-oriented knowledge through our strong and continuous links with industry through internships, joint industry-academia supervisions, and the like.

Mobility

The program involves studying one year each at two different European partner universities. Optionally, a stay at one of the non-european partners for some months is possible, as well as an internship at any of our industrial partners. After completing all study requirements, the students obtain two Master degrees: one from each of the two European universities where they studied.

Study program

The course consists of compulsory core modules, as well as elective advanced modules in Language Technology and Computer Science, possibly complemented by an internship project, and completed by a Master Thesis.

 

History

The LCT Masters program has been successfully implemented since 2006, being funding by the Erasmus Mundus Programme from 2007 to 2011 and from 2013 to 2017. In 2012 the LCT Program operated as an Erasmus Mundus Brand Name. Intake 2018: the program commits to respecting the Erasmus Mundus requirements and to maintain the high quality of the implementation during the years of funding.

Key facts:

+ duration 2 years (120 ECTS credits)

+ in-depth theoretical and hands-on instruction in computational linguistics methods and technologies

+ study one year each at two different partner universities in Europe

+ double degree

+ possibility to visit one of two non-European partners for a part of the study

+ language of instruction and academic and administrative support is English

European partners:

1. Saarland University in Saarbruecken, Germany (coordinator)

2. University of Trento, Trento, Italy

3. University of Malta, Malta

4. University of Lorraine, Nancy, France

5. Charles University, Prague, Czech Republic

6. Rijksuniversiteit Groningen, The Netherlands

7. The University of the Basque Country / Euskal Herriko University, San Sebastian, Spain

 

Non-European partners:

8. Shanghai Jiao Tong University, China

9. The University of Melbourne, Australia

 Frequently Asked Questions

You can find answers to our Frequently asked questions here: https://lct-master.org/contents_2014/faq.php

Careers

The LCT program offers education and training opportunities for the next generation of leaders in research and innovation in artificial intelligence as well as language and speech technologies. Examples of jobs held by the LCT alumni include: PhD student; university professor; company founder, data scientist, software engineer, IT consultant, senior analyst, researcher, senior linguist, information extraction engineer, project leader, computational linguist, assistant professor, post-doctoral researcher. 

 

Visit the European Masters Program Language & Communication Technologies page on the University of Malta website for more details!



Read less
Program Brief. The LCT program is an international distributed Master program. Read more

Program Brief

The LCT program is an international distributed Master program. It is designed to meet the demands of industry and research in the rapidly growing field of Language Technology. Research and innovation in Language Technology is vital for many of the smart applications that are pervasive in modern daily life, such as virtual assistants, automatic translation services, search engines, voice-driven technology, social media analytics etc. Language Technology (also known as Computational Linguistics or Natural Language Processing) is an interdisciplinary field at the intersection of Linguistics, Computer Science and Mathematics (logic, probability theory, formal language theory, statistics). Hence, students in this program choose appropriate combinations of modules in Language Technology, Computational and Theoretical Linguistics, and Computer Science. Moreover, the students are able to acquire practice-oriented knowledge through our strong and continuous links with industry through internships, joint industry-academia supervisions, and the like.

Mobility

The program involves studying one year each at two different European partner universities. Optionally, a stay at one of the non-european partners for some months is possible, as well as an internship at any of our industrial partners. After completing all study requirements, the students obtain two Master degrees: one from each of the two European universities where they studied.

 

Study program

The course consists of compulsory core modules, as well as elective advanced modules in Language Technology and Computer Science, possibly complemented by an internship project, and completed by a Master Thesis.

 

History

The LCT Masters program has been successfully implemented since 2006, being funding by the Erasmus Mundus Programme from 2007 to 2011 and from 2013 to 2017. In 2012 the LCT Program operated as an Erasmus Mundus Brand Name. Intake 2018: the program commits to respecting the Erasmus Mundus requirements and to maintain the high quality of the implementation during the years of funding.

Key facts:

+ duration 2 years (120 ECTS credits)

+ in-depth theoretical and hands-on instruction in computational linguistics methods and technologies

+ study one year each at two different partner universities in Europe

+ double degree

+ possibility to visit one of two non-European partners for a part of the study

+ language of instruction and academic and administrative support is English

European partners:

1. Saarland University in Saarbruecken, Germany (coordinator)

2. University of Trento, Trento, Italy

3. University of Malta, Malta

4. University of Lorraine, Nancy, France

5. Charles University, Prague, Czech Republic

6. Rijksuniversiteit Groningen, The Netherlands

7. The University of the Basque Country / Euskal Herriko University, San Sebastian, Spain

 

Non-European partners:

8. Shanghai Jiao Tong University, China

9. The University of Melbourne, Australia

 Frequently Asked Questions

You can find answers to our Frequently asked questions here: https://lct-master.org/contents_2014/faq.php

Careers

The LCT program offers education and training opportunities for the next generation of leaders in research and innovation in artificial intelligence as well as language and speech technologies. Examples of jobs held by the LCT alumni include: PhD student; university professor; company founder, data scientist, software engineer, IT consultant, senior analyst, researcher, senior linguist, information extraction engineer, project leader, computational linguist, assistant professor, post-doctoral researcher. 

 

Visit the European Masters Program Language & Communication Technologies page on the University of Malta website for more details!



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Program Brief. The LCT program is an international distributed Master program. Read more

Program Brief

The LCT program is an international distributed Master program. It is designed to meet the demands of industry and research in the rapidly growing field of Language Technology. Research and innovation in Language Technology is vital for many of the smart applications that are pervasive in modern daily life, such as virtual assistants, automatic translation services, search engines, voice-driven technology, social media analytics etc. Language Technology (also known as Computational Linguistics or Natural Language Processing) is an interdisciplinary field at the intersection of Linguistics, Computer Science and Mathematics (logic, probability theory, formal language theory, statistics). Hence, students in this program choose appropriate combinations of modules in Language Technology, Computational and Theoretical Linguistics, and Computer Science. Moreover, the students are able to acquire practice-oriented knowledge through our strong and continuous links with industry through internships, joint industry-academia supervisions, and the like.

Mobility

The program involves studying one year each at two different European partner universities. Optionally, a stay at one of the non-european partners for some months is possible, as well as an internship at any of our industrial partners. After completing all study requirements, the students obtain two Master degrees: one from each of the two European universities where they studied.

 

Study program

The course consists of compulsory core modules, as well as elective advanced modules in Language Technology and Computer Science, possibly complemented by an internship project, and completed by a Master Thesis.

 

History

The LCT Masters program has been successfully implemented since 2006, being funding by the Erasmus Mundus Programme from 2007 to 2011 and from 2013 to 2017. In 2012 the LCT Program operated as an Erasmus Mundus Brand Name. Intake 2018: the program commits to respecting the Erasmus Mundus requirements and to maintain the high quality of the implementation during the years of funding.

Key facts:

+ duration 2 years (120 ECTS credits)

+ in-depth theoretical and hands-on instruction in computational linguistics methods and technologies

+ study one year each at two different partner universities in Europe

+ double degree

+ possibility to visit one of two non-European partners for a part of the study

+ language of instruction and academic and administrative support is English

European partners:

1. Saarland University in Saarbruecken, Germany (coordinator)

2. University of Trento, Trento, Italy

3. University of Malta, Malta

4. University of Lorraine, Nancy, France

5. Charles University, Prague, Czech Republic

6. Rijksuniversiteit Groningen, The Netherlands

7. The University of the Basque Country / Euskal Herriko University, San Sebastian, Spain

 

Non-European partners:

8. Shanghai Jiao Tong University, China

9. The University of Melbourne, Australia

 

Frequently Asked Questions

You can find answers to our Frequently asked questions here: https://lct-master.org/contents_2014/faq.php

Careers

The LCT program offers education and training opportunities for the next generation of leaders in research and innovation in artificial intelligence as well as language and speech technologies. Examples of jobs held by the LCT alumni include: PhD student; university professor; company founder, data scientist, software engineer, IT consultant, senior analyst, researcher, senior linguist, information extraction engineer, project leader, computational linguist, assistant professor, post-doctoral researcher. 

Visit the European Masters Program Language & Communication Technologies page on the University of Malta website for more details!


Frequently Asked Questions

You can find answers to our Frequently asked questions here: https://lct-master.org/contents_2014/faq.php



Read less
Program Brief. The LCT program is an international distributed Master program. Read more

Program Brief

The LCT program is an international distributed Master program. It is designed to meet the demands of industry and research in the rapidly growing field of Language Technology. Research and innovation in Language Technology is vital for many of the smart applications that are pervasive in modern daily life, such as virtual assistants, automatic translation services, search engines, voice-driven technology, social media analytics etc. Language Technology (also known as Computational Linguistics or Natural Language Processing) is an interdisciplinary field at the intersection of Linguistics, Computer Science and Mathematics (logic, probability theory, formal language theory, statistics). Hence, students in this program choose appropriate combinations of modules in Language Technology, Computational and Theoretical Linguistics, and Computer Science. Moreover, the students are able to acquire practice-oriented knowledge through our strong and continuous links with industry through internships, joint industry-academia supervisions, and the like.

Mobility

The program involves studying one year each at two different European partner universities. Optionally, a stay at one of the non-european partners for some months is possible, as well as an internship at any of our industrial partners. After completing all study requirements, the students obtain two Master degrees: one from each of the two European universities where they studied.

 

Study program

The course consists of compulsory core modules, as well as elective advanced modules in Language Technology and Computer Science, possibly complemented by an internship project, and completed by a Master Thesis.

 

History

The LCT Masters program has been successfully implemented since 2006, being funding by the Erasmus Mundus Programme from 2007 to 2011 and from 2013 to 2017. In 2012 the LCT Program operated as an Erasmus Mundus Brand Name. Intake 2018: the program commits to respecting the Erasmus Mundus requirements and to maintain the high quality of the implementation during the years of funding.

Key facts:

+ duration 2 years (120 ECTS credits)

+ in-depth theoretical and hands-on instruction in computational linguistics methods and technologies

+ study one year each at two different partner universities in Europe

+ double degree

+ possibility to visit one of two non-European partners for a part of the study

+ language of instruction and academic and administrative support is English

European partners:

1. Saarland University in Saarbruecken, Germany (coordinator)

2. University of Trento, Trento, Italy

3. University of Malta, Malta

4. University of Lorraine, Nancy, France

5. Charles University, Prague, Czech Republic

6. Rijksuniversiteit Groningen, The Netherlands

7. The University of the Basque Country / Euskal Herriko University, San Sebastian, Spain

 

Non-European partners:

8. Shanghai Jiao Tong University, China

9. The University of Melbourne, Australia

 

Frequently Asked Questions

You can find answers to our Frequently asked questions here: https://lct-master.org/contents_2014/faq.php

Careers

The LCT program offers education and training opportunities for the next generation of leaders in research and innovation in artificial intelligence as well as language and speech technologies. Examples of jobs held by the LCT alumni include: PhD student; university professor; company founder, data scientist, software engineer, IT consultant, senior analyst, researcher, senior linguist, information extraction engineer, project leader, computational linguist, assistant professor, post-doctoral researcher. 

Visit the European Masters Program Language & Communication Technologies page on the University of Malta website for more details!



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This course has been designed to develop your knowledge and skills to meet the needs of industry and to update or retrain more experienced engineers. Read more
This course has been designed to develop your knowledge and skills to meet the needs of industry and to update or retrain more experienced engineers.

This broad-based course deals with a range of design and development areas relevant to electronic systems and communication projects. You should gain the knowledge and skills required of a professional engineer to design and develop systems for applications such as: wireless communications, mobile-cellular communications, electronics design, broadcasting, remote control, instrumentation, diagnostics, and monitoring.

Hands-on experience is gained through a major individual research project.

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This course is designed for students from a variety of engineering backgrounds, to enhance and develop electronic engineering knowledge and skills essential for the modern engineer. Read more
This course is designed for students from a variety of engineering backgrounds, to enhance and develop electronic engineering knowledge and skills essential for the modern engineer.

You will gain expertise and experience in the areas of analogue and digital systems and circuit design using state-of-the-art software and processors. You will gain the in-depth knowledge and skills you need for analysing, modelling and optimising the performance of advanced microelectronic and communication systems. The course covers a broad range of topics including advanced embedded system technologies, digital design automation and silicon electronic design, as well as optical fibre communication systems and wireless communications.

This course can also be taken in January - for more information, please view this web-page: https://www.northumbria.ac.uk/study-at-northumbria/courses/microelectronic-and-communication-engineering-msc-ft-dtfmiz6/

Learn From The Best

Our passion for research informs the curriculum and impacts our teaching, ensuring that course content stays current and our academic staff are amongst the best in the country. The team include published authors and industry experts with research interests including analogue electronics, networking, professionalism in practice, teaching and learning in technology and project management.

The department of Physics and Electrical Engineering is a top-35 research department with 79% of our outputs ranked world-leading or internationally excellent according to the 2014 UK wide Research Excellence Framework. This places us in the top quartile for world-leading publications among UK universities in General Engineering.

Teaching And Assessment

Your progress will be monitored by lecturing staff and advice and appropriate links supplied to improve your learning. Web links are provided for further reading whilst online videos, where appropriate, are available for you to review taught material in your own time. Lecture material is enhanced with laboratory sessions which allow demonstration of theories and exploration of practical problems and limitations.

As a postgraduate student you will be expected to have a responsible and professional approach to learning, accessing the material and support provided and raising any problems with academic staff or your programme leader. You will have an opportunity to take an active role in the operation and content of the course via the departmental programme committee.

Module Overview
KD7019 - Advanced Embedded System Design Technology (Core, 20 Credits)
KD7020 - Digital Design Automation (Core, 20 Credits)
KD7063 - Wireless Communication Systems (Core, 20 Credits)
KD7064 - Optical Communications System (Core, 20 Credits)
KD7065 - MSc Engineering Project (Core, 60 Credits)
KD7066 - Analogue Electronic Design (Core, 20 Credits)
KD7067 - Engineering Research and Project Management (Core, 20 Credits)

Learning Environment

Whether your subject matter is renewable energy, astrophysics or communications, our range of specialist and general use facilities will support you. Throughout your work you will be able to measure, explore, experiment and model developments that are changing the way we all live our lives.

Technology to enhance learning in engineering is embedded throughout the programme. This takes the form of self-guided exercises, online tests with feedback, assessment feedback and videos and tutorials to support lectures. Self-development and employability are enhanced throughout the programme, especially with respect to communicating ideas in written and oral forms, the use of appropriate IT tools, personal time management, problem solving and independent learning skills.

Research-Rich Learning

Our course is at the forefront of current knowledge and practice, shaped by world-leading and internationally excellent research. All the modules are industry or research informed, based upon academic staff industrial experience, consultancy or personal research interests. This allows the knowledge and skills that you will acquire to meet the need and practical application for real world scenarios.

The course is supported by a team of academics who are highly respected by research groups around the world and who make a significant contribution to the faculty and University vision for the future of research within the higher education sector.

Give Your Career An Edge

A strong industrial and research based curriculum enhances your employability by considering real world scenarios in which known solutions are absent. You will be encouraged to research information from professional publications, company literature, etc. to determine innovative and appropriate solutions to these scenarios, enabling you to demonstrate relevant industry practice.

You will also be attached to one of the departmental or faculty research groups for your final dissertation, exposed to and incorporated into a working team and environment. This provides the opportunity for both work-related learning experience and professional career development.

Your Future

The rapid growth of the communications and microelectronics industries has created a strong demand for skilled engineers, who are able to design and manufacture semiconductors and freespace and optical communication systems. The UK Government’s commitment to high-speed broadband means that demand for communications engineers is expected to outstrip supply. UK and international demand for microelectronic engineers remains strong, with salaries reflecting employers’ need to attract the best candidates.

Upon graduation, you will be well-equipped to apply for roles such as communications engineer, electronic/electrical engineer, operational researcher, software engineer and systems developer. You may also consider the wider engineering and information technology sectors, including energy, transport, electronics and telecommunications, defence and manufacturing and engineering management.

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