The benefits of a Masters extend beyond improving your earning potential. They can provide you with personal and professional skills to accelerate your development. They are also an opportunity to differentiate yourself from your peers, many of whom will have similar A-level and undergraduate qualifications.
In all, there are over 4000 Higher Education Institutions in Europe offering a wide range of courses at Bachelor, Masters and Doctorate level. With more and more of these organizations offering English as the language of education for at least some of their degree programs, universities in Europe are now of higher quality than ever before. Universities in Europe offer a friendly welcome to foreign students and to give a course of knowledge that meets their profession needs in today’s global demand.
View all Master Programs in Telecommunication Engineering in Europe 2018
The Graduate Smart Grid (Smart Grid) (PXEI) created with the aim of training professionals who can meet the demands of the energy sector in the coming years, which necessarily dominate the technologies involved in the Smart Grid (smart grid ). [+]
The grid will become increasingly intelligent due to the implementation of information technology and communications, as embodied in: - Distributed energy generation, which complement the traditional centralized generation, making systems required specific remote.Automatic power measurement and automatic switching loads. The distribution automation and control systems.
The Degree in Smart Grid (Smart Grid) (PXEI) created with the aim to train professionals who can meet the demands of the energy sector in the coming years, which necessarily dominate the technologies involved in the Smart Grid (smart grid).
In this context, the graduate focuses on all fundamental aspects of smart grids (Smart Grids), which are distributed generation systems, systems metering (AMR, AMI, AMM), EMS (Energy Management System) as well as the role of electric vehicles and the need for the smart Grid to advance the concept of intelligent city (smart city). the energy market, power systems planning and applicable regulations will also be addressed. ... [-]
The Master in Technology Smart Grid is an official Master program with academic and professional guidance offered by the Carlos III University of Madrid. The Master has a duration of one academic year and consists of 60 credits distributed among 10 subjects and work to master. [+]
Master in Smart Grid Technologies (Bilingual)
The Master in Technology Smart Grid is an official Master program with academic and professional guidance offered by the Carlos III University of Madrid. The Master has a duration of one academic year and consists of 60 credits distributed among 10 subjects and work to master. The program provides a strong technical background on issues related to smart grids commonly known in professional circles as Smart Grids. To do the advanced technologies in the field of Telecommunications and Electricity responsible for technological change will suffer the electricity networks in the coming years are presented.
The curriculum of 60 credits has been divided into various compulsory and optional subjects in the field of electrical networks and telematic networks and applications. Subjects related to the Electrical Network consists of 21 credits and cover the main aspects related to electrical distribution networks, with particular emphasis on aspects related to electricity smart grids: distributed energy resources management, and operation of microgrids central virtual power, energy optimization and network management and intelligent buildings and technical maintenance and supervision of assets in smart grids.... [-]
The objective of the master's degree in Telecommunications Engineering is to prepare ICAI engineers as the leader of the sector for the upcoming years. The master program combines technical knowledge with more generalistic education applicable to many industrial sectors and companies, by means of very practical education where the student is in the center of the stage. The program is adapted to a society in which internationalization, communication skils, and leadership are indispensable for professional success. [+]
Dentro del programa de Ingeniería de Telecomunicación, el Máster en Ingeniería de Telecomunicación (MIT) constituye el segundo periodo de formación que tiene lugar a continuación del Grado:
El Máster en Ingeniería de Telecomunicación tiene como objetivo formar a los ingenieros del ICAI que lideren el sector en los próximos años. En el Máster se combinan conocimientos técnicos con formación generalista aplicable a muchos sectores industriales y empresariales, todo ello a través de una formación práctica en la que el estudiante es el actor principal. Además los estudios se adaptan a una sociedad en la que la internacionalización y las habilidades de comunicación y liderazgo son imprescindibles para alcanzar el éxito profesional.... [-]
The Master in Telecommunications Engineering is a professional degree which replaces the Telecommunications Engineering degree and qualifies you to practice as a Telecommunications Engineer, under the provisions of Order CIN / 355/2009 of 9 February. [+]
Master in Telecommunications Engineering (Bilingual)
The Master in Telecommunications Engineering is a professional degree which replaces the Telecommunications Engineering degree and qualifies you to practice as a Telecommunications Engineer, under the provisions of Order CIN / 355/2009 of 9 February.
The Spanish Association of Engineers requires professionals from companies in the telecommunications field (major manufacturers of telecommunications equipment or telecom operators) and from other types of companies, institutions or organizations that need qualified personnel to design and maintain their own telecommunications systems.
The overall aim of the Master in Telecommunications Engineering is to train professionals who are competent to practice as Telecommunications Engineers. This Master's Degree is geared towards advanced training and enhancing employability. Students who complete the Master in Telecommunications Engineering should be able to address any technological issue in the telecommunications field scrupulously, making use of all the necessary knowledge, skills and perspectives from this academic field. At the same time, they should respect the environment and fundamental rights, and show an awareness that putting their knowledge into practice may have consequences for society (ethical scope)... [-]
They can access the Master of Science in Telecommunications Engineering students holding a university degree first level. The first-level university degree may have been obtained in the same office or in other locations, even abroad. [+]
Courses of Third CycleProfessional status of the title.
Graduates in Telecommunications Engineering find its natural place within companies, public and financial institutions and research centers in which there are research and development, design, production and management of computer systems and information transport and transmission of fixed and mobile telecommunications networks.final test characteristics.
The final exam consists of the discussion of a report for an individual work, carried out by the student under the supervision of at least one professor of the Faculty of Engineering of the University of Cagliari, about technical aspects and / or relevant scientific area of ' information Engineering.... [-]
The master's degree speaks for the Telecommunication Engineer's profession according to the objectives and competences defined for it and established in Order CIN 355/2009. [+]
The master's degree speaks for the Telecommunication Engineer's profession according to the objectives and competences defined for it and established in Order CIN 355/2009.Curriculum
The Curriculum is structured in common subjects for all the students complemented with a block of optional subjects that include the realization of practices in company. At the same time, each of the subjects has been designed considering the homogeneity of its contents and competences, trying to ensure, also, a correct sequencing of the same. For this, the subjects group subjects according to affinity of competences and contents of the same.
The nature of the majority of subjects is compulsory, leaving a single subject of optional character with contents from which the student must select a total of 6 ECTS (two elective subjects). In turn, for the Final Master's Project it consists of 24 ECTS.... [-]
Master in Telecommunications Engineering [+]
Two yearsClasses held in
Open admission with assessment of personal competencies and skillsInternationalization
Degree course with international curriculaLanguage
Lectures and seminarsPartner universities École Centrale de Nantes (France) École Polytechnique de l'Université de Nantes (France) École Polytechnique de l'Université Grenoble 1 (France) École Polytechnique Universitaire de Nice Sophia Antipolis (France) ENSEA - École Nationale Supérieure de l'Électronique et de ses Applications, Cergy (France) Supélec, Paris (France) Universitat Politècnica de Catalunya, Barcelona (Spain) Université de Nantes (France) Université Joseph Fourier - Grenoble (France) Université Nice Sophia Antipolis (France) Université Paris-Sud (France) Université Toulouse III Paul Sabatier (France) Modules Advanced and Software Defined Networks Antennas and Microwaves/Antenne E Microonde Combinatorics and Cryptography Wireless Communications/Comunicazioni Wireless Digital Signal Processing and Multimedia Digital Electronic Systems 1/Elettronica Dei Sistemi Digitali 1 Environmental impact of EM fields/Impatto Ambientale Dei Campi Elettromagnetici Laboratory of SDR, SDN, and IoT English Language level B2/Lingua Inglese B2 Mathematical Physics 2 Electromagnetic Design/Metodi Di Progettazione Elettromagnetica Misure sui Sistemi di Telecomunicazione/Measurements for Telecommunication Systems Modellistica e controllo di reti di telecomunicazioni/Modelling and control of communication networks Nanophotonics/Nanofotonica Network Optimization Photonic Networks Propagation and Modeling of Communication Channels Embedded Systems/Sistemi Embedded Telerilevamento/Remote sensing Digital Communications/Trasmissioni Numeriche [-]
An MEng is the most direct route to CEng status. Study full-time or part-time with the option for a year in industry. [+]
MEng (Hons) Telecommunication Engineering offers an integrated route that combines undergraduate and postgraduate levels of study over four years. It teaches the theory of telecommunications coupled with the required software tools.5 reasons to study here Industry relevant: An established academic team that maintains a strong research output and extensive research links with industry through consultancy works and Knowledge Transfer Partnerships (KTPs). Growth area: Opens a range of career opportunities in an expanding field including work within an equipment manufacturer, network infrastructure provider or service provider, research work or undertaking design and development projects. Career progression: Extends studies to Masters level and provides greater breadth and depth of study, which is the quickest and easiest way to become a Chartered Engineer (CEng). Laboratory access: Significant laboratory-based practical teaching to support lecture material. Work experience: Complete your third year in a paid professional work placement. This degree course covers ... [-]