Telecommunications engineering is a combination of electrical engineering and computer science, and covers the design, installation, and maintenance of networks and equip
Why study MSc Telecommunications Engineering at Middlesex University?
Our strong links with companies like Microsoft and Siemens have enabled us to develop a practice focused course which is highly relevant to the needs of the industry and right up-to-date with the latest technology and developments. If you're not already in work, you'll have the option of doing a placement for up to 12 weeks, during which you'll work on your independent research project.
We are very proud of our award-winning technology center and our telecoms laboratories built specially for this course. The labs are equipped with special software from National Instruments, including six PXIs which we've used to build our own GSM network, telecoms trainer kits, IP telephones and software including MATLAB, Simulink, Cisco Packet Tracer, OPNET and Modeller 17.0. We also have our own WSN lab, called Senso LAB, which attracts researchers from far and wide – we're currently hosting three professors and a research fellow at two Italian universities....
The EIT Digital joint master’s programme in Information and Communication Technology offers eight tracks which combine technical competence with a strong focus on develop
The EIT Digital joint master’s programme in Information and Communication Technology offers eight tracks which combine technical competence with a strong focus on developing skills in innovation and entrepreneurship. The programme lets you build a curriculum of your choice, based on your interest in different areas of ICT. It also enables you to study at two universities in two different European countries, receiving a double degree.
ICT Innovation at KTH
EIT Digital has created a joint master's programme between top European universities. The programme consists of eight tracks for students to choose from when applying to the programme, six of which it is possible to study at KTH....
University of Kent, School of Engineering and Digital Arts
The Advanced Communications Engineering (Wireless Systems and Networks) MSc is one of Kent’s newest programmes. It targets the needs of researchers and industry in a fast
The programme reflects the latest developments in wireless communications, with particular emphasis on digital signal processing using embedded systems. It has been designed to produce high-calibre engineers that can specialise in and understand the complex system designs used in the wireless communications field.
The School of Engineering and Digital Arts at Kent provides true research-led teaching, with access to superior expertise and facilities for projects. You can also benefit from advice on project placements using our industry and research establishment contacts.
The programme is delivered by internationally leading researchers in our Communications and Instrumentation Control and Embedded Systems groups. They provide the first-hand experience of cutting-edge research into next-generation wireless communications, converged access networks and embedded systems....
University of Kent, School of Engineering and Digital Arts
This MSc programme targets the needs of a rapidly evolving communications engineering sector and provides an industrially relevant and exciting qualification in the lates
Study the techniques and technologies that enable advanced communications provision through fixed and wireless/mobile networks, and that modernise the core networks to provide ultra-high bit-rates and multi-service support. The Advanced Communications Engineering (RF Technology and Telecommunications) MSc at Kent is well-supported by companies and research establishments in the UK and overseas.
The programme reflects the latest issues and developments in the telecommunications industry delivering high-quality systems level education and training. Gain deep knowledge of next-generation wireless communication systems including antenna technology, components and systems, and fibre optic and converged access networks....
This new masters course combines the disciplines of telecommunication and wireless engineering together with broadband networking design and smart transceiver techniques.
MSc Programs in Telecommunication Engineering.
With the launch of 4G wireless networks (LTE), industry vendors are competing to recruit graduates with a 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 the 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.
Key course information - ordered by mode
Technical, research and professional skills
Computer network design
Wireless communication and satellite systems
Technology evaluation and commercialisation
Optical and microwave communications
Smart receivers and transmission techniques
Communications Engineering, which is one of the majors under the Master's Programme in Computer, Communication and Information Sciences, gives a solid understanding of In
As a result of the digital revolution, which is radically transforming the world, there is a constant need for well-rounded communications engineers with great knowledge of the technology fundamentals, in-depth programming skills and a solid understanding of the business dynamics.
Communications Engineering, which is one of the majors under the Master's Programme in Computer, Communication and Information Sciences, gives a solid understanding of Internet technologies, wireless communications and communications ecosystems - from the perspective of concepts, technologies and methodologies. Furthermore, during your communications engineering studies, you can increase your knowledge for example in mobile communications, industrial internet, cyber security, machine learning applications in communications engineering, and information theory....
The Master's Degree in Electronics and Communications Engineering aims to form a graduate with advanced skills in processing and information-transmission systems of and t
MSc Programs in Telecommunication Engineering. Electronics and Communications Engineering
This is a 2-year graduate programme entirely taught in English, offered to both national and international students.
The Master's Degree in Electronics and Communications Engineering aims to form a graduate with advanced skills in processing and information-transmission systems of and to provide more specific knowledge in the design of devices and electronic systems. It provides the skills and methodological tools needed to design and develop systems for signal and image processing, antenna design, microwave systems and devices, analog and digital electronic design with applications in the fields of electronics, telecommunications....
The master of science degree in telecommunications engineering technology is for individuals who seek graduate education to advance into managerial and leadership roles i
Throughout its existence, the telecommunications industry has driven technological innovation and provided outstanding career opportunities for people with the right technical and leadership skills. New services offered through the Internet, mobility offered by wireless technology, and extreme capacity offered by fiber optics, as well as the evolution of policy and regulation, are shaping the telecommunication network of the future. RIT offers a unique program focused on telecommunications that develops the advanced level of skill and knowledge needed by future leaders in the industry
The master of science degree in telecommunications engineering technology is for individuals who seek graduate education to advance into managerial and leadership roles in a dynamic telecommunications environment. This program can be completed through either online or on-campus study....
University Of Genoa (Università Degli Studi Di Genova)
The course offers advanced education in Information and Communications Technology (ICT), with special reference to signal processing (voice, video, data, and multimedia),
The course offers advanced education in Information and Communications Technology (ICT), with special reference to signal processing (voice, video, data, and multimedia), telecommunications systems, networks and networking applications. The program focuses on providing methodological and advanced design skills to become high-level professionals in all areas of Telecommunications Engineering.
Learning by doing
The course offers lectures (in English), laboratories, guided visits to companies and seminars. The final thesis project gives students the possibility of developing further competence in the framework of high-level research labs.
Design, implementation, and presentation of commercial tenders, sales, technical assistance and customer care, in advanced ICT technology, with specific reference to systems, networks and applications development....
The Master of Science program in Telecommunications Engineering features an advanced and innovative curriculum with multidisciplinary courses in the areas of Internet ser
Mission and goals
The Laurea Magistrale (equivalent to Master of Science) programme 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 five possible tracks (all taught in English): Networks; Communications; Signals; Technologies; Internet Engineering (the last one in cooperation with the Laurea Magistrale in Computer Science and Engineering); or define their personalized study program through a large set of available courses.
Five specialisations are available:Networks, Communications, Signals, Technologies, Internet Engineering (joint degree with Computer Science Engineering)....
The George Washington University - School of Engineering & Applied Science
The Master of Science (M.S.) program in Telecommunications Engineering provides students with a foundation in the fundamentals of transmissions systems, computer networki
Offered through the Department of Electrical and Computer Engineering, the Master of Science (M.S.) degree in Telecommunications Engineering provides students with a foundation in the fundamentals of transmissions systems, computer networking, network architecture and protocols, and telecommunications security protocols. Students may also take courses on optical networking, wireless networking, cloud computing, and other topics relevant to the industry.
Credit hours: 30
Thesis options: Two - students who choose to complete a thesis take 24 credit hours of coursework and 6 credit hours for conducting thesis research. These 6 credit hours must be taken over two terms. Students who choose the non-thesis option take 30 credit hours of coursework.
M.Sc. Program students must complete a total of at least thirty-six credit hours, within the following guidelines: Course-work of eighteen credit hours, including core co
Electronics and Communications Engineering (ECE):
M.Sc. Program students must complete a total of at least thirty-six credit hours, within the following guidelines:
Course-work of eighteen credit hours, including core courses of six credit hours, elective courses of nine credit hours and a Project-Based Learning course of three credit hours.
Thesis – work of eighteen credit hours.
M.Sc. students have to pass successfully six courses with three credit hours each.
ECE 501- Advanced Analog Integrated Circuits.
ECE 502- Advanced Digital and Data Communications.
The elective courses are divided into two major areas; Electronics and Communications. Each course is worth three credit hours. Students select the six credit elective courses from the sets of Electronics and/or Communications elective courses. Students can also select, with the aid of their academic advisors, elective courses from other interdisciplinary graduate programs....