• Xi’an Jiaotong-Liverpool University Featured Masters Courses
  • Coventry University Featured Masters Courses
  • Cardiff University Featured Masters Courses
  • University of Glasgow Featured Masters Courses
  • New College of the Humanities Featured Masters Courses
  • St Mary’s University, Twickenham Featured Masters Courses
  • University of Derby Online Learning Featured Masters Courses
  • Goldsmiths, University of London Featured Masters Courses
University of the West of England, Bristol Featured Masters Courses
Coventry University Featured Masters Courses
Ulster University Featured Masters Courses
Queen’s University Belfast Featured Masters Courses
Bath Spa University Featured Masters Courses
"mobile" AND "telecommuni…×
0 miles

Masters Degrees (Mobile Telecommunication)

  • "mobile" AND "telecommunication" ×
  • clear all
Showing 1 to 15 of 27
Order by 
The Mobile and High Speed Telecommunication Networks course is designed to provide you with in-depth knowledge of modern high-speed telecommunication systems and to enhance your professional development in the rapidly expanding field of personal communications. Read more
The Mobile and High Speed Telecommunication Networks course is designed to provide you with in-depth knowledge of modern high-speed telecommunication systems and to enhance your professional development in the rapidly expanding field of personal communications.

This course has two main components: 2G - 4G mobile communications, and fixed high-speed and multi-service networks. Emphasis is given to developing essential industrial and commercial skills. The project is a major element of the course and gives you the opportunity to enhance your career prospects by acquiring in-depth knowledge of a key aspect of telecommunications technology.

Why choose this course?

You will be taught industrially relevant techniques using some of the same tools and software used by the communications industry. Our telecommunications laboratories are equipped for the design, testing and analysis of mobile wireless and optical networks using industry standard tools such Asset, Ranopt, OptSim, OpNet and Matlab. You will have the opportunity to analyse real data from operational 2G and 3G networks and to design 3G and LTE networks.

Our networking laboratories are equipped with modern Cisco routers, switches and security devices to enable design construction and testing of complete high bandwidth secure, wired and wireless networks. You will have the opportunity to put the skills you have gained into practice if you choose to undertake our 1 year optional placement. The universal nature of the technical skills developed in our programmes means our courses are of equal relevance to both new graduates and those with many years of industrial experience.

This course in detail

MSc in Mobile and High Speed Telecommunication Networks has a modular course-unit design providing you with maximum flexibility and choice. To qualify for a master’s degree, you must pass modules amounting to 180 credits. This comprises six taught modules (20 credits each) plus your dissertation (60 credits).

The MSc in Mobile and High Speed Telecommunication Networks with placement enables you to work in industry for a year in the middle of your course to give valuable workplace experience. Placements are not guaranteed, but the departments dedicated placement team will help with the process of finding and applying for placements. To qualify for a master’s degree with placement, you must pass modules amounting to 180 credits plus the zero credit placement module. This comprises six taught modules (20 credits each) plus your dissertation (60 credits).

The Postgraduate Diploma in Mobile and High Speed Telecommunication Networks allows you to concentrate on the taught part of the degree and is ideal for people working in the communications industry who wish to brush up their skills. To qualify for a Postgraduate Diploma, you must pass modules amounting to 120 credits. This comprises six taught modules (20 credits each). In some cases, it may be possible for a student on a Postgraduate Diploma to do 3 taught modules (20 credits each) plus your dissertation (60 credits).

The Postgraduate Certificate in Mobile and High Speed Telecommunication Networks allows you to concentrate on the taught part of the degree and is ideal for people working in the communications industry who wish to learn a specific area in this rapidly changing discipline. To qualify for a Postgraduate Certificate, you must pass modules amounting to 60 credits. This comprises three taught modules (20 credits each).

We also offer a Postgraduate Certificate Mobile and High Speed Telecommunication Networks Research Project.

In Semester 1 you can choose from the following modules:
-Research and Scholarship Methods (compulsory for MSc)
-Digital Mobile Communications (alternative compulsory for MSc and PGDip)
-Digital Communications (alternative compulsory for MSc)
-Network Principles (alternative compulsory for MSc)

In Semester 2 you can choose from the following modules:
-Advanced Mobile Communications (compulsory for MSc and PGDip)
-High Speed Mobile Communications (compulsory for MSc and PGDip)
-Optical and Broadband Networks (alternative compulsory for MSc)
-Multiservice Networks (alternative compulsory for MSc)

As courses are reviewed regularly, the list of taught modules you choose from may vary from the list here.

Students undertaking an MSc with placement will do a 1 year placement in industry. The placement will be undertaken after the taught component and before doing the dissertation.

Students studying for an MSc will also take:
-MSc Dissertation (completed over summer)

Teaching and learning

The taught modules include lectures, seminars, library and internet research, and practical design and experimentation. Assessments include coursework exercises, presentations, essays and examinations (maximum 50% for taught modules).

Teaching staff include experienced academic staff and recent recruits from the telecommunications industry. Visiting speakers give you relevant and up-to-date developments from within the industry.

Laboratory facilities include the latest industry standard tools for mobile and wireless network analysis and software modelling facilities to enable network design.

Careers and professional development

Our MSc students come from all over the world and follow careers in many countries after their graduation. They are engaged in activities such as 3G network design, WiMax and LTE roll-out, handset compliance, DVB-H planning, communications software development and university lecturing. Many of them have commented on how the course content and training enabled their careers to flourish.

Read less
The internet has developed at an astounding rate, connecting people in ways that we could never have imagined. On this programme you will study the advanced communications theory that underpins the science of networking, focusing on physical layer network communications, information theory and coding. Read more
The internet has developed at an astounding rate, connecting people in ways that we could never have imagined. On this programme you will study the advanced communications theory that underpins the science of networking, focusing on physical layer network communications, information theory and coding.

This new programme is for students who want to pursue a career shaping and defining the new generation of converged networks, responding to the rapid developments in telecommunication systems, such as social networking; seamless mobility; mobile data and the proliferation of applications for mobile and handheld devices. It will educate the next generation of network engineers in the fundamental science, mathematics and key technologies that underpin global networking.

This programme will:

-Provide an in-depth understanding of the key issues in next generation, all-packet networking.
-Cover quality of service-enabled transport; support for generalized mobility; ubiquitous provision of services to users; core network consolidation.
-Provide advanced communications theory to underpin the science.
-Address probabilistic methods for network performance evaluation, and network security.
-Provide an in-depth treatment of mobile networks from WCDMA 3G to LTE and LTE-Advanced.
-Address the new areas of sensor networks and Internet of Things.
-Teach you Java programming.
-Industrial Experience

The industrial placement currently takes place towards the end of the first year for a maximum of 12 months. It is the student’s responsibility to secure their placement, the school will offer guidance and support in finding and securing the placement but the onus is on the student to secure the job and arrange the details of the placement.

Currently if you are not able to secure a placement by the end of your second semester we will transfer you onto the 1 year FT taught programme without the Industrial Experience, this change would also be applied to any visa if you were here on a student visa.

The industrial placement consists of 8-12 months spent working with an appropriate employer in a role that relates directly to your field of study. The placement is currently undertaken between the taught component and the project. This will provide you with the opportunity to apply the key technical knowledge and skills that you have learnt in your taught modules, and will enable you to gain a better understanding of your own abilities, aptitudes, attitudes and employment potential. The module is only open to students enrolled on a programme of study with integrated placement.

If you do not secure a placement you will be transferred onto the 1 year FT programme.

Why study your MSc in Telecommunication Systems at Queen Mary?

The School of Electronic Engineering and Computer Science is rated in the top 20 universities in the UK for studying computer science and electronic engineering. We are internationally recognised for our pioneering and ground-breaking research, and innovative public engagement programme.

This new programme responds to the rapid developments in telecommunication systems, such as social networking; seamless mobility; mobile data and the proliferation of applications for mobile and handheld devices.
The programme teaches the Java programming foundations for network and services design, provides an in-depth treatment of the technological foundations of converged, all-packet networks, and current mobile networks from WCDMA 3G to LTE and LTE-Advanced.

It will enable you to develop an extensive understanding of 21st Century networks, current mobile and WLAN technologies, software for network and services design, network modelling, sensors and the Internet of Things, security and authentication, mobile services, next generation mobile technologies.

We have a long history of successfully offering postgraduate programmes in Telecommunications and in Wireless Networks.
We have recently recruited new staff who are international experts in the fields of converged all-IP networks with particular knowledge in modelling, measurements and QoE, in middleware and in wireless networking.
As well as teaching you, lecturers do research in their various fields of expertise. Being taught by someone who is engaged in potentially world-changing research ensures that lectures are fully up-to-date.
Facilities

The School of Electronic Engineering and Computer Science offers taught postgraduate students their own computing laboratory. MSc students have exclusive use of the top floor in our purpose-built, climate controlled, award winning informatics teaching laboratory (ITL) outside of scheduled laboratory sessions. The ITL hosts over 250 state-of-the-art PCs capable of multimedia production and several laser printers. In addition, there are video conference facilities, seminar rooms, and on-site teaching services and technical support. There are also a number of breakout spaces available to students with full wi-fi access allowing you use your own mobile devices.

The ITL is primarily used for taught laboratory sessions and regularly hosts research workshops and drop-in lab facilities. For postgraduate students on taught and research degrees there are specialist laboratories to use for carrying out research. Our augmented human interaction (AHI) laboratory combines pioneering technologies including full-body and multi-person motion capture, virtual and augmented reality systems and advanced aural and visual display technologies. We also have specialist laboratories in multimedia; telecommunication networks; and microwave antennas. In addition to these spaces, PhD students have generous study space in our research laboratories. In 2011 we completed the £2m development of new experimental facilities in Antennas and Media and Arts Technology. We formed the Interdisciplinary Informatics Hub in Collaboration with the Schools of Biological and Chemical Sciences and Mathematical Sciences. These laboratories provided a meeting place for postgraduates from the three Schools to interact and exchange ideas.

Read less
The internet has developed at an astounding rate, connecting people in ways that we could never have imagined. On this programme you will study the advanced communications theory that underpins the science of networking, focusing on physical layer network communications, information theory and coding. Read more
The internet has developed at an astounding rate, connecting people in ways that we could never have imagined. On this programme you will study the advanced communications theory that underpins the science of networking, focusing on physical layer network communications, information theory and coding.

This programme prepares you for a career in telecommunications and its applications, for example the integration of voice and data applications, within a business context. The programme combines in-depth coverage of the main technical aspects of telecommunications with advanced business modules. At the end of the programme you will be equipped with the skills needed for a wide range of jobs in the expanding telecommunications industry, with emphasis on those that are relevant to business/financial needs, particularly in the small business and start-up sector.

This programme will:

-Provide an in-depth understanding of the key issues in next generation, all-packet networking
-Cover quality of service-enabled transport; support for generalized mobility; ubiquitous provision of services to users; core network consolidation
-Provide advanced communications theory to underpin the science
-Address probabilistic methods for network performance evaluation, and network security
-Provide an in-depth treatment of mobile networks from WCDMA 3G to LTE and LTE-Advanced
-Address the new areas of sensor networks and Internet of Things
-Teach you Java programming
-Industrial Experience

The industrial placement currently takes place towards the end of the first year for a maximum of 12 months. It is the student’s responsibility to secure their placement, the school will offer guidance and support in finding and securing the placement but the onus is on the student to secure the job and arrange the details of the placement.

Currently if you are not able to secure a placement by the end of your second semester we will transfer you onto the 1 year FT taught programme without the Industrial Experience, this change would also be applied to any visa if you were here on a student visa.

The industrial placement consists of 8-12 months spent working with an appropriate employer in a role that relates directly to your field of study. The placement is currently undertaken between the taught component and the project. This will provide you with the opportunity to apply the key technical knowledge and skills that you have learnt in your taught modules, and will enable you to gain a better understanding of your own abilities, aptitudes, attitudes and employment potential. The module is only open to students enrolled on a programme of study with integrated placement.

If you do not secure a placement you will be transferred onto the 1 year FT programme.

Why study your MSc in Telecommunication Systems at Queen Mary?

The School of Electronic Engineering and Computer Science is rated in the top 20 universities in the UK for studying computer science and electronic engineering. We are internationally recognised for our pioneering and ground-breaking research, and innovative public engagement programme.

This new programme responds to the rapid developments in telecommunication systems, such as social networking; seamless mobility; mobile data and the proliferation of applications for mobile and handheld devices.
The programme teaches the Java programming foundations for network and services design, provides an in-depth treatment of the technological foundations of converged, all-packet networks, and current mobile networks from WCDMA 3G to LTE and LTE-Advanced.

It will enable you to develop an extensive understanding of 21st Century networks, current mobile and WLAN technologies, software for network and services design, network modelling, sensors and the Internet of Things, security and authentication, mobile services, next generation mobile technologies.
-We have a long history of successfully offering postgraduate programmes in Telecommunications and in Wireless Networks.
-We have recently recruited new staff who are international experts in the fields of converged all-IP networks with particular knowledge in modelling, measurements and QoE, in middleware and in wireless networking.
-As well as teaching you, lecturers do research in their various fields of expertise. Being taught by someone who is engaged in potentially world-changing research ensures that lectures are fully up-to-date.

Facilities
The School of Electronic Engineering and Computer Science offers taught postgraduate students their own computing laboratory. MSc students have exclusive use of the top floor in our purpose-built, climate controlled, award winning informatics teaching laboratory (ITL) outside of scheduled laboratory sessions. The ITL hosts over 250 state-of-the-art PCs capable of multimedia production and several laser printers. In addition, there are video conference facilities, seminar rooms, and on-site teaching services and technical support. There are also a number of breakout spaces available to students with full wi-fi access allowing you use your own mobile devices.

The ITL is primarily used for taught laboratory sessions and regularly hosts research workshops and drop-in lab facilities. For postgraduate students on taught and research degrees there are specialist laboratories to use for carrying out research. Our augmented human interaction (AHI) laboratory combines pioneering technologies including full-body and multi-person motion capture, virtual and augmented reality systems and advanced aural and visual display technologies. We also have specialist laboratories in multimedia; telecommunication networks; and microwave antennas. In addition to these spaces, PhD students have generous study space in our research laboratories. In 2011 we completed the £2m development of new experimental facilities in Antennas and Media and Arts Technology. We formed the Interdisciplinary Informatics Hub in Collaboration with the Schools of Biological and Chemical Sciences and Mathematical Sciences. These laboratories provided a meeting place for postgraduates from the three Schools to interact and exchange ideas.

Read less
With the launch of 4G wireless networks (LTE), industry vendors are competing to recruit graduates with unique combination of skills and knowledge in both wireless and broadband networking fields. Read more
With the launch of 4G wireless networks (LTE), industry vendors are competing to recruit graduates with unique combination of skills and knowledge in both wireless and broadband networking fields. This course offers an integrated approach to transmission technologies, signal processing techniques, broadband network design, wireless networking techniques and modelling simulation skills.

The unique features of this course are the integration of latest wireless communications and broadband networking engineering which are at the forefront of modern telecommunication systems in the industry today.

Engineering employers have expressed their need for engineers with a solid grasp of the business requirements that underpin real engineering projects. Our course incorporates a management-related module focused on entrepreneurship and project management. This management module develops our graduates' commercial awareness and ensures that they have the skill-set valued by industry employers.

As a student here you'll benefit from well-equipped telecommunications lab and Cisco equipment.

See the website http://www.lsbu.ac.uk/courses/course-finder/telecommunication-wireless-engineering-msc

Modules

- Technical, research and professional skills
This module provides training for the skills that are necessary for successful completion of the MSc studies in the near future and for professional development in the long-term future. More specifically, the course teaches how to search and gather relevant technical information, how to extract the essence from a piece of technical literature, how to carry out a critical review of a research paper, how to write a feasibility report, how to give presentations and put your thoughts across effectively, and how to manage a project in terms of time and progress in a group project environment. These are designed to enhance the technical and analytical background that is necessary for the respective MSc stream.

- Computer network design
This module provides a broad understanding of the principles of computer networks and approaches of network design. It starts from standard layered protocol architecture and each layer of the TCP/IP model. Then it will focus on a top-down approach for designing computer networks for an enterprise.

- Wireless communication and satellite systems
This module provides understanding of main aspects of wireless communication technologies, various radio channel models, wireless communication networks and satellite communication systems. Particular emphasis will be given to current wireless technologies and architectures, design approaches and applications.

- Technology evaluation and commercialisation
In this module you'll follow a prescribed algorithm in order to evaluate the business opportunity that can be created from a technology's unique advantages. You will be guided towards identifying a technology project idea that you will evaluate for its business potential. To do this you'll conduct detailed research and analysis following a prescribed algorithmic model, in order to evaluate the business potential of this technology idea. The outcomes from this will serve as the basis for implementation of the selected technology in the business sense. Thus you'll develop the appropriate commercialisation strategy and write the business plan for your high-tech start-up company.

- Optical and microwave communications
This module provides a comprehensive approach to teach the system aspects of optical and microwave communications, with the emphasis on applications to Fibre-to-the Home (FTTH)/Fibre-to-the Business (FTTB) or Fibre-to-the Curb (FTTC), radio over fibre (RoF), optical-wireless integration, high-capacity photonic switching networks, wired and wireless broadband access systems, and high-speed solutions to last-mile access, respectively.

- Smart receivers and transmission techniques
This module provides a further in-depth study of some advanced transmission and receiver processing techniques in wireless communication systems. The module focuses on various current topics such as evolution and challenges in wireless and mobile technologies, smart transceivers, processing, coding and possible future evolutions in mobile communication systems. This module also aims to provide you with in-depth understanding and detailed learning objectives related the current mobile wireless industry trends and standards for key design considerations in related wireless products.

- Final project
This module requires you to undertake a major project in an area that is relevant to your course. You'll chose your projects and carry it out under the guidance of their supervisor. At the end of the project, you are required to present a dissertation, which forms a major element of the assessment. The dissertation tests the your ability to integrate information from various sources, to conduct an in-depth investigation, to critically analyse results and information obtained and to propose solutions. The other element of the assessment includes an oral presentation. The Individual Project carries 60 credits and is a major part of MSc program.

Employability

Engineers who keep abreast of new technologies in telecommunications, wireless and broadband networking are increasingly in demand.

There are diverse employment opportunities in this expanding field. Graduates could work for an equipment manufacturer, network infrastructure provider or a service provider, carrying out research, or working on the design and development projects, or production of data networks, broadband networking, optical fibre and microwave communications, wireless and mobile communications, cellular mobile networks or satellite systems. You could also pursue PhD studies after completing the course.

LSBU Employability Services

LSBU is committed to supporting you develop your employability and succeed in getting a job after you have graduated. Your qualification will certainly help, but in a competitive market you also need to work on your employability, and on your career search. Our Employability Service will support you in developing your skills, finding a job, interview techniques, work experience or an internship, and will help you assess what you need to do to get the job you want at the end of your course. LSBU offers a comprehensive Employability Service, with a range of initiatives to complement your studies, including:

- direct engagement from employers who come in to interview and talk to students
- Job Shop and on-campus recruitment agencies to help your job search
- mentoring and work shadowing schemes.

Professional links

The School of Engineering has a strong culture of research and extensive research links with industry through consultancy works and Knowledge Transfer Partnerships (KTPs). Teaching content on our courses is closely related to the latest research work.

Read less
With the sector experiencing major technological advancements in recent years, the Telecommunication Engineering Masters is directly relevant to the current needs of industry. Read more
With the sector experiencing major technological advancements in recent years, the Telecommunication Engineering Masters is directly relevant to the current needs of industry. You will develop and extend professional practice through group work and individual projects.

Telecommunications is one of the most rapidly developing industry sectors globally. The practical, hands-on learning techniques used in this course are designed to steer graduates into careers as telecom engineers in programming, mobile communications, telecoms security and IP telephony. The Telecommunication Engineering Master's provides a sound theoretical and practical knowledge in main sectors of telecommunication engineering, to include internet, mobile and wireless communications, data networks and programming and security for telecommunications.

Read less
The Master of Science program in Telecommunications Engineering features an advanced and innovative curriculum with multidisciplinary courses in the areas of Internet services and applications, communication systems, multimedia signal processing, optical and radio technologies, and remote sensing. Read more

Mission and goals

The Master of Science program in Telecommunications Engineering features an advanced and innovative curriculum with multidisciplinary courses in the areas of Internet services and applications, communication systems, multimedia signal processing, optical and radio technologies, and remote sensing.

Students can select four possible tracks (all taught in English):
- Photonics and Radio
- Communication Networks
- Signals
- Internet Engineering (in cooperation with MSc in Computer Science and Engineering)

or define their personalized study program through a large set of available courses.

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

Professional opportunities

Our graduates are engineers that are expert in the design of communication systems, in organizing and managing communication networks that are part of the big Internet, and in the defining and customizing communication services. Career opportunities are available not only in the traditional sector of Telecommunications (operators and manufacturers) but in many others for which the communication services are crucial (like finance, energy, production, public services, commerce, etc.)

For more information visit the web site: http://commtech.dei.polimi.it/en/

Presentation

See http://www.polinternational.polimi.it/uploads/media/Telecommunication_Engineering_01.pdf
Communication Technologies provide the infrastructures, the services, and the applications to the users of the Information Society around the globe: electronic commerce, real-time multimedia applications, secure banking transactions, remote medical diagnosis, exchange of music and video clips on both fixed and mobile devices, technologies for observing the earth’s surface and interior for land monitoring and oil prospecting. The Master of Science in Telecommunications Engineering aims at producing engineers that are experts in the design of communication systems, in organizing and managing communication networks that are part of the big Internet, and in the defining and customizing communication services. It offers a wide range of specialization opportunities that stimulate the creativity of the students in the areas of networking, signal processing, transmission systems, and radio communications.
The programme is taught in English.

Subjects

Five specializations available:
- Networks
- Communications
- Signals
- Technologies
- Internet Engineering (joint with MS in Computer Systems Eng.)

The mandatory courses include:
- Traffic theory
- Network design
- Digital communications,
- Digital signal processing,
- Operations Research

The optional specializing courses include:
- Wireless Networks,
- Multimedia Internet,
- Internet of Things,
- Audio and video signals
- Wireless systems,
- Antennas and propagation,
- Network security and cryptography
- Radar and localization systems,

For more information please visit: http://commtech.dei.polimi.it

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

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

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

Read less
This course is for students who want to become trained professionals in computer network and modern telecommunications fields. Read more
This course is for students who want to become trained professionals in computer network and modern telecommunications fields. You will gain a comprehensive understanding of techniques used to transmit digital information, modern computer network design and operation, communication protocols and the importance of standards and regulatory issues. MSc students also undertake an individual project.

Key benefits:

• Great employment prospects in a large and growing industry for good graduates
• Your will be based at MediaCityUK
• The teaching and topics of this course are closely aligned to a top research centre at the University

Visit the website: http://www.salford.ac.uk/pgt-courses/data-telecommunication-networks

Suitable for

You will usually have a first degree in computer science, electronic or electrical engineering, telecommunications or physics. You must also have recent programming experience, either as part of your final year of study, as part of your degree project or during work experience.

We may also accept you if you have significant industry experience in telecommunications and networking such as working on the design and implementation of networks and data in a telecommunications organisation.

Programme details

This course covers a comprehensive range of topics split in to four large modules worth 30 credits each plus the MSc Project.

External speakers from blue-chip and local companies will give seminars to complement your learning, that will be real-world case studies related to the subjects you are studying in your modules. These are designed to improve the breadth of your learning and often lead to ideas that you can develop for your MSc Project.

Format

Teaching will be in the form of lectures, individual and group class work, plus topical and relevant participative class discussions and critical evaluation using case studies

Laboratories will be used to provide you with hand-on experience of using and setting up network systems. Tutorials will be used to give you practice in solving theoretical and design problems associated with network technologies and network systems.

Module titles

• Network Technologies, Architecture and Design
• Research Methods and Project Management
• Network Programming and Simulation
• Wireless and Mobile Technologies
• MSc Project

Assessment

Over the programme, the assessment of the taught modules is as follows:

- Examinations - 50%
- Coursework and Assignments - 50%

Career potential

Graduates with experience of computer network systems and digital communications are in demand in all industrial and commercial sectors.

The employment record for the MSc is good, with students obtaining jobs in traditional telecommunication companies, software development companies and companies in the service and commercial sectors.

Typical jobs range from network design engineers, network maintenance, software development, systems design and integration, marketing, after-sales support and technical support.

How to apply: http://www.salford.ac.uk/study/postgraduate/applying

Read less
This is a programme of study that involves networking, software development technologies and architectures for the design and management of modern distributed computer systems and networks. Read more
This is a programme of study that involves networking, software development technologies and architectures for the design and management of modern distributed computer systems and networks. The emphasis is on a software engineering approach based on sound modern software engineering project management methods, tools and techniques, which enable an integrated lifecycle systems development view.

The programme aims to provide students with the knowledge, skills and understanding required to allow them to contribute to the planning, design and management of modern network based computer systems. Students will gain the understanding of critical evaluation of existing technology options, future developments, protocols, architecture and tools needed to support the development and delivery of advanced network services. Upon successful completion of this Master's programme graduates are expected to be proficient in the development of new enterprise distributed and/or web-enabled systems, the integration of legacy systems into intranets or extranets, and advanced data and telecommunication technologies.

Though our short course centre opportunity may also be provided to study for the following professional qualifications: CISCO Certified Network Associate; Penetration Testing and Vulnerability Assessment.

The availability of some courses is subject to satisfying constraints that may come into effect in the year of entry. In addition, some options are negotiable, indicating that a course selection will need to be approved prior to the student undertaking the requested option.

Visit the website http://www2.gre.ac.uk/study/courses/pg/netsyst/csne

Computing - Networking and Systems

Programmes for computer science or computer engineering graduates who wish to develop a specialism in computer systems and advanced software engineering or computer networks.

We offer specialist programmes with an emphasis on all aspects of networking some with extra content on wireless and mobile aspects. There are computer security and computer forensics programmes suitable for the practitioner who wishes to further their skills.

Some programmes concentrate on technical security, security policy management and legal compliance issues which can be excellent preparation for specialist professional exams with CISA (Certified Information Systems Auditor) and CISSP (Certified Information Systems Security Professional).

What you'll study

Full time
- Year 1:
Students are required to study the following compulsory courses.

PG Project (CIS) (60 credits)
System Administration and Security (15 credits)
Network and Internet Technology and Design (15 credits)
Network Architectures and Services (15 credits)
Software Tools and Techniques (15 credits)
Clouds, Grids and Virtualisation (15 credits)
Mobile and Network Technologies (15 credits)
Essential Professional and Academic Skills for Masters Students
English Language Support Course (for Postgraduate Students in the School of Computing and Mathematical Sciences)

Students are required to choose 15 credits from this list of options.

Mobile Application Development (15 credits)
Cyber Security (15 credits)
Enterprise Software Engineering Development (15 credits)

Students are required to choose 15 credits from this list of options.

Audit and Security (15 credits)
Enterprise Web Programming (15 credits)
Systems Development Management and Governance (15 credits)
Penetration Testing (15 credits)

Part time
- Year 1:
Students are required to study the following compulsory courses.

Essential Professional and Academic Skills for Masters Students
English Language Support Course (for Postgraduate Students in the School of Computing and Mathematical Sciences)

Students are required to choose 30 credits from this list of options.

Network and Internet Technology and Design (15 credits)
Software Tools and Techniques (15 credits)
Clouds, Grids and Virtualisation (15 credits)

Students are required to choose 30 credits from this list of options.

System Administration and Security (15 credits)
Network Architectures and Services (15 credits)
Mobile and Network Technologies (15 credits)

- Year 2:
Students are required to study the following compulsory courses.

PG Project (CIS) (60 credits)

Students are required to choose 15 credits from this list of options.

Network and Internet Technology and Design (15 credits)
Software Tools and Techniques (15 credits)
Clouds, Grids and Virtualisation (15 credits)

Students are required to choose 15 credits from this list of options.

System Administration and Security (15 credits)
Network Architectures and Services (15 credits)
Mobile and Network Technologies (15 credits)

Students are required to choose 15 credits from this list of options.

Mobile Application Development (15 credits)
Cyber Security (15 credits)
Enterprise Software Engineering Development (15 credits)

Students are required to choose 15 credits from this list of options.

Audit and Security (15 credits)
Enterprise Web Programming (15 credits)
Systems Development Management and Governance (15 credits)
Penetration Testing (15 credits)

Fees and finance

Your time at university should be enjoyable and rewarding, and it is important that it is not spoilt by unnecessary financial worries. We recommend that you spend time planning your finances, both before coming to university and while you are here. We can offer advice on living costs and budgeting, as well as on awards, allowances and loans.

Assessment

Students are assessed through examinations, coursework and a project.

Professional recognition

This programme is accredited by the British Computer Society (BCS). On successful graduation from this degree, the student will have fulfilled the academic requirement for registration as a Chartered IT Professional (CITP) and partially fulfilled the education requirement for registration as a Chartered Engineer (CEng) or Chartered Scientist (CSci). Please contact the BCS for further information. The programme also has accreditation from the European Quality Assurance Network for Informatics Education (EQANIE).

Career options

Graduates from this programme are equipped for employment in industry commerce or education to work as independent consultants or within teams in diverse areas such as networking, business data communication and telecommunication, Internet and ecommerce applications, IT support, advanced research, teaching and training.

Find out about the teaching and learning outcomes here - http://www2.gre.ac.uk/?a=643961

Find out how to apply here - http://www2.gre.ac.uk/study/apply

Read less
We offer Industrial Experience options on all our full-time taught MSc programmes, which combine academic study with a one-year industrial placement between your taught modules and summer project. Read more
We offer Industrial Experience options on all our full-time taught MSc programmes, which combine academic study with a one-year industrial placement between your taught modules and summer project. Taking the Industrial Experience option as part of your degree gives you a route to develop real-world, practical problem-solving skills gained through your programme of study in a professional context.

This can give you an important edge in the graduate job market. As a leading research School, we have excellent links with industry. We also employ dedicated staff to help you arrange your year in industry. The Industrial Experience programmes are highly competitive and attract the best students given the limited availability of placements. We are unable to guarantee all students secure an industrial placement, as our industrial partners conduct their own employment application and interview processes.

The internet has developed at an astounding rate, connecting people in ways that we could never have imagined. On this programme you will study the advanced communications theory that underpins the science of networking, focusing on physical layer network communications, information theory and coding.

This programme prepares you for a career in telecommunications and its applications, for example the integration of voice and data applications, within a business context. The programme combines in-depth coverage of the main technical aspects of telecommunications with advanced business modules. At the end of the programme you will be equipped with the skills needed for a wide range of jobs in the expanding telecommunications industry, with emphasis on those that are relevant to business/financial needs, particularly in the small business and start-up sector.

This programme will:

Provide an in-depth understanding of the key issues in next generation, all-packet networking
Cover quality of service-enabled transport; support for generalized mobility; ubiquitous provision of services to users; core network consolidation
Provide advanced communications theory to underpin the science
Address probabilistic methods for network performance evaluation, and network security
Provide an in-depth treatment of mobile networks from WCDMA 3G to LTE and LTE-Advanced
Address the new areas of sensor networks and Internet of Things
Teach you Java programming

Read less
In consultation with industry, the MSc Telecommunications Engineering is designed to give you the relevant practical skills and expert knowledge that you need to succeed in the telecommunications industry. Read more
In consultation with industry, the MSc Telecommunications Engineering is designed to give you the relevant practical skills and expert knowledge that you need to succeed in the telecommunications industry.

It is a fantastic training solution for industry professionals who need the skills to implement, advise, purchase, sell and manufacture wireless system technologies. Study the Telecommunications Engineering masters and you will cover mobile telephony, satellite communication systems, optical systems and networks, and digital communications. By the end of the course you will be able to successfully design and manage telecommunication systems and services.

This course attracts applicants from a wide range of sectors including telecommunications, networking, communication systems, remote instrumentation, remote data logging, signal processing, and software development.

This course has several different available start dates and study methods - for more information, please view the relevant web-page:
SEPTEMBER 2017 (Part Time) - http://www.gcu.ac.uk/ebe/study/courses/details/index.php/P02624-1PTA-1718/Telecommunications_Engineering_(Part-time)?utm_source=ZZZZ&utm_medium=web&utm_campaign=courselisting

JANUARY 2017 (Part Time) - http://www.gcu.ac.uk/ebe/study/courses/details/index.php/P02624-1PTAB-1617/Telecommunications_Engineering_(January)?utm_source=ZZZZ&utm_medium=web&utm_campaign=courselisting

JANUARY 2018 (Full Time) - http://www.gcu.ac.uk/ebe/study/courses/details/index.php/P02623-1FTAB-1718/Telecommunications_Engineering?utm_source=ZZZZ&utm_medium=web&utm_campaign=courselisting

JANUARY 2018 (Part Time) - http://www.gcu.ac.uk/ebe/study/courses/details/index.php/P02624-1PTAB-1718/Telecommunications_Engineering_(Part-time)?utm_source=ZZZZ&utm_medium=web&utm_campaign=courselisting

Programme Description

The desire for higher data rates and mobility in applications such as mobile telephony and wireless networks has stimulated a massive growth in the telecommunications field in the last decades, which presents exciting opportunities to people working, or wanting to work in this popular area.

The MSc Telecommunications Engineering programme offered by GCU has been created to provide you with a comprehensive understanding of modern communication technologies and of the techniques used in telecommunication companies. Created in consultation with industry, this programme offers you the opportunity to gain relevant practical skills and to develop the expert knowledge that will allow you to succeed in the telecommunications arena.

Some of the key aspects covered by our programme include mobile telephony, satellite communication systems, optical systems and networks, and digital communications. Knowledge in these areas will allow you to successfully design and manage telecommunication systems and services.

Why Choose This Programme?

Our innovative approach to learning and teaching ensures students benefit from the latest thinking and best practice. You will have the opportunity to broaden individual and particular interests at Masters level, for example, ethics and technology and technology and environmental management. In the third trimester you will undertake a major project within the area of wireless communications. Projects can be industry-based or chosen from a selection of research and consultancy activities.

Assessment

All modules include examinations and coursework. Practical computing forms a significant part of assessment. This is accomplished through coursework and practical tests.

Career Opportunities

Graduates will be able to pursue careers within a wide range of industrial and technology sectors such as telecommunications, networking, communication systems, remote instrumentation, remote data logging, signal processing and software development.

The programme content will also benefit those in industry, commerce and management who wish to gain skills in wireless systems to help them better implement, advise, purchase, sell and manufacture wireless system technologies.

Read less
Multimedia and wireless communications is a rapidly growing area in the booming communications industry. Read more
Multimedia and wireless communications is a rapidly growing area in the booming communications industry. New standards such as 3G and 4G for mobile networking enable applications including triple services for mobile networks, digital television, video streaming, interactive gaming, navigation services, and emergency and healthcare applications. It is technologically challenging to deliver these multimedia applications and services efficiently over emerging and diverse wireless networks. To meet this challenge, engineers need to have a deep understanding of wireless and multimedia technologies.

This programme aims to provide you with an understanding of the technical characteristics of wireless systems and multimedia technologies. It will cover advanced topics in wireless communications for voice, data and multimedia. You will benefit from:
• gaining a degree from a globally respected university
• excellent research facilities with advanced experimental equipment
• knowledge of cutting-edge technologies needed in the real job market
• abundant opportunities to get involved in various national or industrial-funded projects

Modules

Core Modules
• Advanced Signal Processing
• Image and Video Processing
• Data Communication and Communication Networks
• Mobile Communications
• Multimedia Communications
• Coding and Cryptography
• Project Management
• Msc Project

Elective Modules
• Renewable Kinetic Energy Technologies
• Power Electronics and Applications for Renewable Energy

What are my career prospects?

Graduates of this programme will have skills that are in-demand in the job market and offer abundant research and application opportunities. You will have the necessary skills to enter careers in some of the most dynamic fields in image and video communications, and will typically be employed as multimedia system engineers, multimedia system and information technology consultants, mobile projects managers, wireless and mobile communication consultants, and managers and team leaders in the communications industry.

Read less
The MSc Telecommunications Engineering programme provides a comprehensive understanding of modern communication technologies and the techniques used in telecommunication. Read more
The MSc Telecommunications Engineering programme provides a comprehensive understanding of modern communication technologies and the techniques used in telecommunication. Created in consultation with industry, this programme offers you the opportunity to gain relevant practical skills and to develop the expert knowledge needed to succeed in the telecommunications arena.

Programme description

The desire for higher data rates and mobility in applications such as mobile telephony and wireless networks has stimulated a massive growth in the telecommunications field in the last decades, which presents exciting opportunities to people working, or wanting to work in this popular area.

The MSc Telecommunications Engineering programme offered by GCU has been created to provide you with a comprehensive understanding of modern communication technologies and of the techniques used in telecommunication companies. Created in consultation with industry, this programme offers you the opportunity to gain relevant practical skills and to develop the expert knowledge that will allow you to succeed in the telecommunications arena.

Some of the key aspects covered by our programme include mobile telephony, satellite communication systems, optical systems and networks, and digital communications. Knowledge in these areas will allow you to successfully design and manage telecommunication systems and services.

Why Choose This Programme?

Our innovative approach to learning and teaching ensures students benefit from the latest thinking and best practice. You will have the opportunity to broaden individual and particular interests at Masters level, for example, ethics and technology and technology and environmental management. In the third trimester you will undertake a major project within the area of wireless communications. Projects can be industry-based or chosen from a selection of research and consultancy activities.

Assessment

All modules include examinations and coursework. Practical computing forms a significant part of assessment. This is accomplished through coursework and practical tests.

Career Opportunities

Graduates will be able to pursue careers within a wide range of industrial and technology sectors such as telecommunications, networking, communication systems, remote instrumentation, remote data logging, signal processing and software development.

The programme content will also benefit those in industry, commerce and management who wish to gain skills in wireless systems to help them better implement, advise, purchase, sell and manufacture wireless system technologies.

Read less
The world of telecommunications is one of the fastest developing in the areas of science and technology. Read more
The world of telecommunications is one of the fastest developing in the areas of science and technology. The Telecommunications MSc at UCL covers various aspects of modern telecommunication systems together with the background necessary to understand such systems, and is continuously updated to reflect the rapid changes in the field.

Degree information

Students develop a comprehensive understanding of the key technologies, network architectures, and systems that make up a modern, telecommunications network. Specific topics include telecommunications systems, communications technologies, network design and planning, data networks and architectures, next generation architecture and business aspects of telecommunications.

Students undertake modules to the value of 180 credits.

The programme consists of five core modules (75 credits), three optional modules (45 credits) and a research dissertation (60 credits).

An exit-level Postgraduate Diploma (120 credits) is offered. An exit-level Postgraduate Certificate (60 credits) is offered.

Core modules
-Introduction to Telecommunications Networks
-Mobile Communications Systems
-Software for Network and Services Design
-Telecommunications Business Environment
-Introduction to IP Networks
-Professional Development Module: Transferable Skills (not credit bearing)

Optional modules
-Broadband Technologies and Components
-Communications Systems Modelling
-Internet of Things
-Optical Transmission Networks
-Network and Services Management
-Network Planning and Operations
-Wireless Communications Principles

Dissertation/report
All students undertake an independent research project which culminates in a dissertation of approximately 12,000 words.

Teaching and learning
The programme is delivered through a combination of formal lectures, laboratory and workshop sessions, seminars, tutorials and project work. All of the programme lecturers carry out leading research in the subjects they are teaching. Student performance is assessed through unseen written examination, coursework, design exercises and the dissertation.

Careers

On completion of this programme students pursue careers as network or telecommunications engineers, consultants or systems architects in networking technologies.

Top career destinations for this degree:
-Consulting Engineer, China Mobile
-Graduate Engineer, Cable and Wireless Worldwide
-IT Graduate, Siemens
-Technical Specialist - Telecommunications, BSB Sky C
-Software Engineer, Motorola Mobility

Employability
The Telecommunications MSc programme provides a broad and comprehensive coverage of the technological and scientific foundations of telecommunications networks and services, from the physical layer to the application layer. A strong emphasis is given to mobile and wireless communications and the latest standards in these areas (LTE, WiMAX, IEEE 802 family of standards, etc.). Students study both the theoretical foundations of all related technologies but also carry out extensive practical assignments in several related areas.

Why study this degree at UCL?

UCL Electronic & Electrical Engineering is one of the most highly rated electronic engineering research departments in the UK. Our research and teaching ethos is based on understanding the fundamentals and working at the forefront of technology development.

This MSc programme is taught by UCL's telecommunications experts with contributions from industrial and government specialists, and is dedicated to the task of training engineers and managers in the telecommunications industry.

Read less
We are placing ever greater demands on the Internet, and traditional telecommunication infrastructures are migrating to Internet-based architectures and protocols. Read more
We are placing ever greater demands on the Internet, and traditional telecommunication infrastructures are migrating to Internet-based architectures and protocols.

This programme benefits from the research that experts in our 5G Innovation Centre are undertaking to lead the world in the race to the next generation of communications networks.

PROGRAMME OVERVIEW

Our MSc in Communications, Networks and Software covers the key aspects of the changing Internet environment, in particular the convergence of computing and communications underpinned by software-based solutions.

Some of our students undertaking their project are able to work on one of our wide range of testbeds, such as internet technologies, wireless networking, network management and control, and internet-of-things (IoT) applications.

We also have specialist software tools for assignments and project work, including OPNET, NS2/3, and various system simulators.

PROGRAMME STRUCTURE

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++ (+Lab)
-Fundamentals of Mobile Communications
-Principles of Telecommunications and Packet Networks
-Speech and Audio Processing and Recognition
-Internet of Things
-Applied Mathematics for Communication Systems
-Data and Internet Networking Compulsory
-Advanced Signal Processing
-Mobile Communications B
-Network and Service Management and Control
-Operating Systems for Mobile Systems Programming
-Advanced 5G Wireless Technologies
-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 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 communications, networks and software
-Be able to analyse problems within the field of communications, networks and software 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 communications, networks and software
-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

PROGRAMME LEARNING OUTCOMES

The Department's taught postgraduate programmes are designed to enhance the student's technical knowledge in the topics within electronic and electrical engineering 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.

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
-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
-Workshop and laboratory skills. 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

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.

Read less
Humber’s Wireless Telecommunications graduate certificate program prepares you with electronics, computer engineering, physics and telecommunications skills for work on the cutting-edge technologies in the wireless telecommunications industry. Read more
Humber’s Wireless Telecommunications graduate certificate program prepares you with electronics, computer engineering, physics and telecommunications skills for work on the cutting-edge technologies in the wireless telecommunications industry.

Students will become familiar with the infrastructure of communications systems and how to be successful in the communications industry. This wireless program focuses on three main outcomes: RF/optical test and measurement, networking, and troubleshooting a number of wireless telecommunications systems.You will learn to use engineering tools and equipment for testing of systems including LTE/UMTS/GSM drive test tools, spectrum analyzers, network analyzers, optical time domain reflectometers. You will also learn how to troubleshoot and configure local- and wide-area networks (LAN/WANs) at the device and at the protocol levels. Our courses cover additional networking topics relevant to telecom carriers such as MPLS, VPNs, QoS and VoIP. You will be prepared to understand the technology roadmap leading into Internet of Things (IoT), 5G and data center virtualization technologies.

This program is an established program with industry with over two decades of expertise. Students will have access to learn on some of the best equipment available. Curriculum is kept current with the collaboration of our industry partners in the wireless field. Students utilize the latest technologies in small classes taught by experienced faculty and industry leaders.

Course detail

Upon successful completion of the program, a graduate will:

• Analyze, test, measure and troubleshoot RF (radio frequency) signals, attenuation and antenna systems, and test and troubleshoot linear and non-linear circuit modules.
• Manage network performance issues and problems against user needs through the design, implementation, testing, and troubleshooting of a variety of current and relevant protocols.
• Build wired and/or wireless networks using design documentation, and measure the performance of both the wired and wireless networks’ components and the networks’ applications using basic and advanced network management tools and applications.
• Design, install and configure networks - implementing various network configurations using different standard protocols, and upgrade network hardware (e.g. workstations, servers, wireless access points, routers, switches, firewalls etc.) and related components and software according to the best practices in the industry.
• Monitor and evaluate network security issues and perform basic security audits on both wired and wireless networks.
• Utilize change control, issue documentation and problem escalation procedures and processes, generate and maintain “as-built” network documentation following industry best practices.
• Apply RF analog and digital circuit analysis and design concepts to analyze voice and data communication using different modulation techniques.
• Use simulation tools to mathematically model and solve RF (radio frequency) electrical and electronics networks which are essential components of telecommunications and wireless technologies.
• Install, or use existing, operating systems & its components and manage users, processes, memory management, peripheral devices, telecommunication, networking and security, and troubleshoot hardware and software components of computer and operating systems using system level commands and scripts.
• Assist in the design and development of a wide area of networks using a variety of network layer-one, layer-two and layer-three protocols, microwave communication links, and fiber optics links.
• Describe the infrastructures, components, and protocols of a wide range of wireless technologies.
• Develop the infrastructure required for VoIP transport through IP networks, and be able to configure VoIP clients such as IP telephones and soft phones.

Modules

Semester 1
• WLS 5000: Applied Electromagnetics
• WLS 5002: RF Technology
• WLS 5003: Telecommunication Systems
• WLS 5004: Data Networks
• WLS 5500: Microwave and Fibre Optics

Semester 2
• WLS 5501: Broadband Communications and Security
• WLS 5503: Mobile Technologies
• WLS 5505: Wireless Data Networks
• WLS 5506: LTE Core
• WLS 5507: Wireless Project and ITIL

Your Career

The Canadian wireless industry supports over 280,000 jobs with sector salary average more than Canada’s average salary. In addition, the international wireless telecommunications market is growing. There are numerous employment opportunities in the planning, developing, manufacturing, co-ordinating, implementing, maintaining and managing of telecommunications systems for businesses and government.

As the rate of technology adoption increases in Canadian industry, the Wireless Telecommunications program is preparing graduates for these new markets. A 2015-2019 labour market report by the Information and Communications Technology Council (ICTC) indicates that by 2019, over 182,000 critical ICT positions will be left unfilled.

Graduates of the program work at cell phone service providers, equipment manufacturers, in house information technology (IT) departments, sales departments, and specialized telecommunication and networking companies.

How to apply

Click here to apply: http://humber.ca/admissions/how-apply.html

Funding

For information on funding, please use the following link: http://humber.ca/admissions/financial-aid.html

Read less

Show 10 15 30 per page



Cookie Policy    X