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Intelligent Telecommunications Engineering MSc

Learn about the course below
Code
PGH644
Start
September 2022
Duration
1 year Full-time
2 years Part-time
Attendance
Full-time
Part-time
Fees
£10,000 (UK) *
£14,500 (EU/INT) *
Course leader
Dr Purav Shah
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The telecommunications industry has revolutionised the way we live today, utilising technology in different application areas including medical, agriculture and logistics. It is one of the world's most rapidly developing industries and this course has been designed to meet the growing demand for skilled graduates.

Our MSc Intelligent Telecommunications Engineering degree provides you with a thorough understanding of modern and future advances of digital communication systems and infrastructure of the data networks. This programme offers you the opportunity to develop relevant skills necessary to be at the forefront of the ever-expanding and highly sought-after Telecommunications sector emerging with advanced technologies like Artificial Intelligence/Machine Learning and intelligent environments.

Why study MSc Intelligent Telecommunications Engineering at Middlesex University?

Our specialised course blends practice with theory that will equip you with the skills and knowledge required to design, develop and deploy the next generation wireless communication systems. We have strong links with industry and have developed a practically sound programme that is essential to the needs of the rapidly changing telecommunications industry.

Middlesex University is an official Cisco Academy and Huawei Academy, licensed to provide certification training and equipped with the latest industry-standard equipment. This programme is delivered by field experts who are research active and known for their work and contributions to the discipline. A number of students who join this programme contribute to the existing research of the programme team.

Our strong research profile ensures our courses remain innovative. We have recently opened the London Digital Twin Centre, have our own 5G & IoT research group and have also undertaken notable research in areas such as MIMO, LTE-A, Beyond 5G, Software Defined Networking (SDN), Disaster Communication Networks, Vehicular Networks, etc.

Course highlights

  • Our telecommunications laboratory is equipped with specialist hardware from National Instruments (NI), including the industry standard NI- USRP reconfigurable radio platform, software including MATLAB & Simulink, Cisco Packet Tracer, Riverbed Modeller and Cyber Physical System/Industry 4.0 from Siemens/Festo that will be used for laboratory work during the programme as well as appropriate major projects.
  • As part of the project module, students can choose projects from a range of applicable fields like Artificial Intelligence, Software Defined Networking (SDN), Internet of Things (IoT), Connected Autonomous Vehicles (CAV’s), Blockchain Engineering, etc.
  • The course is suitable for both recent graduates and IT/Engineering professionals who wish to further strengthen their knowledge in Telecommunications sector.
  • Our recent MSc students research contributions are:
    • Towards autonomous driving: a machine learning-based pedestrian detection system using 16-layer LiDAR, COMM 2020, Romania
    • Security aspects of communications in VANETs, COMM 2020, Romania Implementation and Performance Evaluation of a MIMO-VLC System for Data Transmissions – IEEE BMSB 2019 Conference, South Korea

Find out more

Sign up now to receive more information about studying at Middlesex University London.

What you will study on MSc Intelligent Telecommunications Engineering?

The programme consists of five compulsory modules that are taught over two semesters, which introduce the key concepts of digital communication systems, wireless communications architectures, cutting-edge technologies for Industry 4.0 and intelligent/smart environments.

The modules will be taught in different formats combining delivery methods like interactive lectures, seminars, laboratory sessions and workshops.

What will you gain?

You’lll be able to deepen your theoretical knowledge and develop extensive analytical and problem-solving skills, as well as have the have the opportunity to give presentations, take part in group work and discussions; aiding in preparing to be part of a developing team.

The individual postgraduate project brings the best out of your capabilities, thus providing employability skills.

Modules

  • Modules

    • Digital Communication Systems (30 Credits) - Compulsory

      You'll gain a comprehensive and advanced understanding of digital communication techniques for data and voice within communication systems. You'll be introduced to a detailed coverage of source coding, channel coding, baseband and bandpass digital modulation and demodulation techniques, detection theory and error analysis, spread spectrum signals and multiuser communications, wireless fading channels, channel equalization techniques, and advanced topics in multiple antenna array, 5G/6G enabling technologies. These topics will equip you with the knowledge, skills and ability to understand, compare and critically evaluate the advantages and limitations of modern digital techniques within communication systems and wireless technologies. You'll also be able to learn and apply analytical skills to perform system performance analysis with practical observations through simulation and laboratory experiences.

    • Mobile Communications (30 Credits) - Compulsory

      The aim of this module is to provide you with a comprehensive technical foundation of the mobile communication systems and wireless network architectures and services. You'll learn topics like, fundamental aspects of signals, concept of cellular systems and the evolution towards next generation networks, other wireless technology systems and networks, mobility aspects in wireless communications and recent advancements such as millimetre wave multi-gigabit wireless networks.

    • Advanced Topics in Communication Systems (30 Credits) - Compulsory

      This module aims to introduce you with the latest advances in the area of communication systems, both theoretically and practically. The subject of the module will reflect the latest advancements in wireless communication technologies and networking.  This will enable you to study some of the key emerging systems and technologies, including research issues and challenges, and their impact on current and future systems.

    • Intelligent Environments & IoT (15 Credits) - Compulsory

      This module aims to introduce you to the paradigms of intelligence based networked systems and in particular Internet of Things (IoT), both theoretically and practically. You'll be introduced to the technology and architectures that create IoT and more recently, Industry 4.0. that enables intelligent habitation, intelligent building control, smart vehicle technology and industrial processes.

    • Network Security Mechanisms (15 Credits) - Compulsory

      This module covers the principles and foundations of network security. It aims at providing you with the knowledge of security issues, technologies, algorithms and protocols used in securing computer networks and associated systems. It will also provide you with an understanding of possible security breaches, security risk analysis and mechanisms to protect computer and network communication systems.

    • Postgraduate Project in Telecommunications (60 Credits) - Compulsory

      You'll learn to provide a critical overview of the research methods and tools required for the planning and management of a dissertation project. You'll aid in formulation of a research problem and identifying literature, in addition to conducting research project in well-equipped laboratory facilities for the simulation and analysis of wireless and mobile communications technology. The project will  enable you to demonstrate a personal commitment to professional standards and develop expertise in the planning and execution of extensive research investigation  in a specialised area of Wireless Communications and Networks. This module will prepare you for future employment in the Telecommunications sector at an advanced technical level.

More information about this course

See the course specification for more information:

Optional modules are usually available at levels 5 and 6, although optional modules are not offered on every course. Where optional modules are available, you will be asked to make your choice during the previous academic year. If we have insufficient numbers of students interested in an optional module,  or there are staffing changes which affect the teaching, it may not be offered. If an optional module will not run, we will advise you after the module selection period when numbers are confirmed, or at the earliest time that the programme team make the decision not to run the module, and help you choose an alternative module.

How is the MSc Intelligent Telecommunications Engineering degree taught?

As well as developing your practical skills in laboratory sessions, you’ll attend interactive lectures, seminars, workshops and tutorials, where you’ll deepen your theoretical knowledge, work on activities and case studies, and develop your analytical and problem-solving skills.

You will do research and design work, produce written reports, give presentations and take part in group discussions and group work, supplementing all this with your own independent study.

Assessment

This programme’s modules will be assessed via exams, in-class tests, through practical assignments that includes laboratory work, and coursework including reports, presentations and class discussions. Some assessed work will be group work. You’ll receive regular feedback on the submitted work, including the assessed coursework and exams.

For the Postgraduate Telecommunications Project, you’ll be expected to plan, conduct and produce a piece of original research work relevant to the industry which could take the form of designing new algorithms, protocols or framework for wireless/mobile systems. You’ll be assessed through a written thesis and a viva voce.

Changes for students in 2021

If you have travel restrictions to the UK due to coronavirus, this course can be started fully online with support to learn from your home country for the first term.

We are back on campus for the majority of teaching in Autumn 2021, as long as restrictions allow. Your timetable will be built around on campus sessions using our professional facilities, with online sessions for some activities where we know being virtual will add value. We’ll use technology to enhance all of your learning and give you access to online resources to use in your own time.

In case of any changes to government guidance, we‘ll be ready to move to teaching with more restrictions in place and continue to give you an excellent learning experience. In this scenario, on campus teaching should continue although more of your course will take place online.

The table below gives you an idea of what your learning will look like across a typical week. Some weeks might be different due to how we schedule classes and arrange on campus sessions.

This information may change slightly as we receive further guidance from the government. You’ll receive final arrangements for your teaching and a full course timetable before you start.

Scenario A: Without social distancing

Live in-person on campus learning

Contact hours per week, per level:

6 hours

Live online learning

Average hours per week, per level:

6 hours

Scenario B: With social distancing and/or with restrictions on travel to campus

Live in-person on campus learning

Contact hours per week, per level:

N/A

Live online learning

Average hours per week, per level:

12 hours

Outside of these hours, you’ll be expected to do independent study where you read, listen and reflect on other learning activities. This can include preparation for future classes. In a year, you’ll typically be expected to commit 1800 hours to your course across all styles of learning. If you are taking a placement, you might have some additional hours.

Read more about our scenarios for returning to campus and what they might mean for your teaching and learning experience, and how you’ll be able to access student support.

Future plans for teaching

We’re developing our plans for in-person on campus teaching following government advice to keep you safe. If more restrictions are put in place in the future, or there is another lockdown, we’ll deliver your learning and support fully online for a temporary period. We’ll make alternative arrangements for any required placements if they can’t go ahead as planned. We’ll always give you notice of any changes that we make.

Definitions of terms

  • Live in-person on campus learning – This will focus on active and experiential sessions that are both:
    • Led by your tutors including seminars, lab sessions and demonstrations We’ll schedule all of this for you
    • Student-led by you and other students, like small group work and presentations.
  • Live online learning – This will include lectures, tutorials and supervision sessions led by your tutor and timetabled by us. It also includes student-led group work that takes place online

  • Tutor set learning activities – This covers activities which will be set for you by your tutor, but which you will undertake in your own time. Examples of this include watching online materials, participating in an online discussion forum, completing a virtual laboratory or reading specific texts. You may be doing this by yourself of with your course mates depending on your course and assignments. Outside of these hours, you’ll also be expected to do further independent study where you’ll be expected to learn, prepare, revise and reflect in your own time.

Support

You’ll have a strong support network available to you to make sure you develop all the necessary academic skills you need to do well on your course.

Our support services will be delivered online and on campus and you’ll have access to a range of different resources so you can get the help you need, whether you’re studying at home or have the opportunity to come to campus.

You’ll have access to one to one and group sessions for personal learning and academic support from our library and IT teams, and our network of learning experts. Our teams will also be here to offer financial advice, and personal wellbeing, mental health and disability support.

More on teaching for your subject in 2021/22

Read our guide to what you can look forward to when you study your subject with us including more information about your teaching experience this autumn.

  1. Standard entry requirements
  2. International (inc. EU)
  3. How to apply
  1. UK
  2. EU fees from October 2021
  3. EU/International
  4. Additional costs
  5. Scholarships and bursaries

    How can the MSc Telecommunications Engineering support your career?

    Well-qualified telecoms engineering graduates are in high demand and as a graduate, you will be able to pursue careers in:

  • Design and development of the latest communication networks
  • Maintenance, upgrade and validation of existing telecommunications infrastructure
  • Research in Wireless Communications and Networking
  • You’ll also be ideally placed to explore a variety of roles such as Wireless Professional (5G/6G/Beyond), Smart Monitoring Graduate Engineer (IoT), Technology Analyst, Application Analyst, Technical Support Engineer/Consulting Engineer or Software Engineer. The majority of our graduates are in roles directly related to their studies and working in programming, telecommunications engineering, and network management. Equally, you may wish to pursue a career in academia or do further research.

    Our graduates have gone onto achieve many successes since leaving Middlesex and a number have even started working for such companies as:

  • BT
  • iWireless Solutions
  • Amelco Ltd
  • Alcatel-Lucent
  • ZS Associates
  • Symphony Teleca
  • F5 Networks
  • Quantum Black
  • FDM Group

Dr Ramona Trestian
Senior Professor

Dr Ramona Trestian is a Senior Lecturer in Wireless Communications and Networks with significant contribution to the area of optimisation in 5G networks. Her special interests are in the areas of Quality of Experience, Machine Learning and Optimisation of Mobile & Wireless Networks.

Dr Purav Shah
Senior Lecturer

Dr Purav Shah is a Senior Lecturer in Communication and Networks with experience in Internet of Things (IoT) and M2M solutions and Software Defined Networking (SDN).

Dr Huan Nguyen
Associate Professor

Dr Huan Nguyen is an Associate Professor in Communication and Networks with vast experience in state of the art Disaster Recovery Networks and Machine-type communications in 5G.

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