Part time Master's Degree in Electronics in Europe

View all Part time Masters Programs in Electronics in Europe 2017

Electronics

A master's degree is a postgraduate academic degree. One must already have an undergraduate degree to apply for a master's program. Most master's degree program would require students to complete a master's thesis or research paper.

In electronics studies, students can have the opportunity to learn about circuits and their components. Electric energy may be explored in depth and topics such as switches, information processing and microelectronic engineering may be covered.

There are more than four thousand higher education organizations in Europe, from leading research institutions to small, teaching-focused universities. Europe itself is not as much different than other continents, reaching from the Arctic Circle to the coast of Africa.

Start Today Best Part time Masters Degrees in Electronics in Europe 2017

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Master in Informatics, Electronics and Radio Engineering

National Research University
Campus 2 years September 2017 Russia Moscow

National Research University “Moscow Power Engineering Institute” provides Master Degree in Informatics, Electronics and Radio Engineering according to Russian State Educational [+]

Top Part time Masters in Electronics in Europe. National Research University “Moscow Power Engineering Institute” provides Master Degree in Informatics, Electronics and Radio Engineering according to Russian State Educational Standard in the following directions: - Applied Mathematics and Informatics - Informatics and Computer Engineering - Control in Engineering Systems - Instrumentation - Electronics and Nano-Electronics - Radio Engineering WHY SHOULD YOU CHOOSE MPEI MPEI students have a chance to study at one of the most prestigious universities of Russia according to numerous rankings and surveys. For more than eighty years of history MPEI have trained a huge number of the qualified engineers, prominent scientists who were standing at the origins of many technical achievements, in particular, of laser creation. At MPEI the Nobel Prize winners A.D. Sakharov and P.A. Cherenkov worked in different periods. In the 20th century in the Special Design Bureau of MPEI, which possesses its own Center of Deep Space Communication, radio images of the Venus surface and a reverse side of the Moon were obtained for the first time. Among the most famous graduates of MPEI there are the ex-Chairman of the State Council of China Li Peng and the ex-President of Romania Ion Iliescu, Ministers of Engineering and heads of the engineering companies of many countries of the world. MPEI partners in science and education include about 140 foreign universities, and such well-known companies like ABB, Siemens, Schneider Electric, EPRI, Skoda, Samsung and others. Getting the unique training in any chosen field, MPEI graduates never have problems with subsequent employment and realize themselves in any chosen spheres. LANGUAGE OF EDUCATION Training in the field of Informatics and Computer Engineering is organized in English Medium. Training in the other fields is organized in Russian language. Those students who need to learn Russian are invited to MPEI Preliminary course which provides training of Russian language during 1 academic year. ACCOMMODATION CONDITIONS MPEI foreign students are provided with accommodation in MPEI hostel. The hostel under security surveillance has two-room blocks with a bathroom and a toilet in each block. Rooms are for two or three persons. There are also hostels of corridor type with double rooms. Rooms are equipped with furniture, bed linen is also included. On each floor of a hostel there is a common kitchen and a restroom. Internet connection can be provided for additional fee. In MPEI campus there are additional services like laundry, shops, repair offices, post-office, cultural centers, cafes and restaurants, etc. Accommodation fee is about 100 USD per month. INSURANCE All foreign students must have medical insurance for the whole period of education. MPEI works with insurance company which provides the most comprehensive insurance at a rate of 200 USD per year. [-]

MPhil in Engineering, Product Design and Textiles specialisms

University of Bolton
Campus 2 - 4 years August 2017 United Kingdom Bolton

The master of philosophy (MPhil) degree is aimed at students with a good honours degree (or significant work experience and professional qualifications) who wish to undertake a research-based masters degree. As an MPhil student you will critically investigate and evaluate an approved topic and demonstrate an understanding of research methods in your chosen engineering or design subject area. You will present and successfully defend a... [+]

Engineering, Product Design and Textiles specialisms - MPhil The master of philosophy (MPhil) degree is aimed at students with a good honours degree (or significant work experience and professional qualifications) who wish to undertake a research-based masters degree. As an MPhil student you will critically investigate and evaluate an approved topic and demonstrate an understanding of research methods in your chosen engineering or design subject area. You will present and successfully defend a thesis by oral examination to be awarded the degree. If you wish to develop research and analytical skills, this course is appropriate. If you are a professional who would like to gain postgraduate qualifications, but do not want to undertake a taught masters programme, then this is an alternative. Careers & professional development If you register for the MPhil you may be approved for transfer to a PhD after an initial period of registration and demonstration through a progress report of the development of your research into a PhD. Recent graduates have gone on to careers in academia and management roles in industry. Subject overview The engineering and design research group works in collaboration with industry. Our strengths lie in applied research. The group encompasses a number of different engineering and design disciplines, including electronic engineering, mechanical engineering, automotive engineering, product design and textiles. Research topics Research topics include: - applications of electronics - applied physics - robotics - manufacture of electronics-enabled products - engine design - structural crashworthiness - impact biomechanics - accident investigation - manufacturing systems - general textile technology - textile supply chain - advanced composite materials - inclusive design - finite element modelling. [-]

Master in RF, Microwave and Terahertz Engineering of Wireless Systems

Saint Petersburg Electrotechnical University
Campus 2 years September 2017 Russia St. Petersburg

The structure of the degree program consists of advanced professional studies, elective courses and Master’s Thesis. [+]

Top Part time Masters in Electronics in Europe. The structure of the degree program consists of advanced professional studies, elective courses and Master’s Thesis. The program is to train students who will manage successfully professional activity in a globally competitive environment in such an interdisciplinary field as design and technology of the state-of-the-art high-frequency, microwave, and terahertz devices for communications, radar, and other wireless applications. Program curriculum includes the following advanced courses: Introduction to Wireless Systems Computational Electromagnetics Foundations of Microwave Circuit Technologies Basics of Antenna Design Passive Microwave Components and Devices End-to-end PCB Design Wireless Communication Systems Active Microwave Devices CAD of Microwave Devices and Systems Microwave and THz Metamaterials Introduction to Microwave Measurements Programme: 120 ECTS credits, full-time study (2 years), Master’s Degree Eligibility: candidates must hold a Bachelor's Degree in the corresponding field Scholarship: scholarship covers the tuition fee and some study materials An academic year includes 2 semesters beginning on 1st September and 10th February, Winter holidays - 2 weeks, Summer holidays - 2 months (July, August). Master’s Thesis defense is in June. Educational programs of «LETI» are constantly modernized, following the principle «Training through research». Graduates of our university receive new, profound knowledge and practical skills of work. [-]

Master's Degree in Electronic Engineering

University of Bologna School of Engineering and Architecture
Campus 2 years September 2017 Italy Bologna

ECST students, international program fully taught in English, will attain knowledge in the basic issues related to advanced micro-nano-electronic devices, solid-state sensors and biosensors, including reliability features. [+]

Master goals ECST students, international program fully taught in English, will attain knowledge in the basic issues related to advanced micro-nano-electronic devices, solid-state sensors and biosensors, including reliability features. They will as well acquire skills in the modelling and design of digital and analog integrated circuits, advanced telecommunication systems, artificial intelligence and software engineering applications, automation systems and bioengineering. Learning activities ECST is a 120 credits, four-semester programme, consisting in core classes (60 credits), curriculum classes (18 credits), elective classes (12 credits), general-culture classes (9 credits) and a master thesis (21 credits). The core classes are mainly concentrated in the first year and aim to consolidate basic knowledge. During their second-year students can choose their curriculum classes mostly in the field of electronics and telecommunications with options in automation and robotics, computers and information processing, and bioengineering. The classes are organized with lectures, practice, design and laboratory activities. Career opportunities ECST graduates will be able to work in companies whose core business is the design and/or manufacturing of devices, equipment, systems, and infrastructures of electronic and optoelectronic type, including sensor systems, advanced telecommunication systems, applications of artificial intelligence and software engineering. Moreover, they will be able to effectively contribute to all working activities employing electronic technologies or infrastructures for signal processing in the civil construction, industrial and information fields, within public or private research Institutes, public Agencies, or Academia. Their responsibilities will be ranging from design to research, development, management and teaching. [-]

Master in Electrical Power Engineering

Technical University of Ostrava
Campus 2 years September 2017 Czech Republic Ostrava

A high-quality theoretical education and a universal basis of application-focused studies ensure high adaptability of the graduates to all particular requirements of their future professional practice, either in operation and engineering or in science and research. The basic subjects include applied mathematics, selected principles of electrical power engineering, and electrical heat technology. [+]

Top Part time Masters in Electronics in Europe. Faculty of Electrical Engineering and Computer Science Study Branch Electrical Power Engineering Branch Profile A high-quality theoretical education and a universal basis of application-focused studies ensure high adaptability of the graduates to all particular requirements of their future professional practice, either in operation and engineering or in science and research. The basic subjects include applied mathematics, selected principles of electrical power engineering, and electrical heat technology. The course is divided into five specializations: Transmission and Distribution of Electric Power, Generation of Electric Power, Electrical Power Engineering in Transport, Electrical Machines and Devices, Commercial Electrical Engineering, specializing in the following subjects - electrical power engineering of industrial and distribution networks, power plant equipment, electrical power engineering in transport, electrical machines and devices, and technological processes. Further, the department offers the following optional subjects – electromagnetic compatibility, diagnostics of electric equipment, theoretical electrical power engineering, transient events in electrification systems, designing electricity distribution networks, computers for measurement and diagnostics, protection and automation in distribution networks, control of electrification systems, and many others, see the syllabus. Key Learning Outcomes - Knowledge Graduates posses a thorough, state-of-the-art knowledge and understanding of theories, concepts and methods of the chosen specialization, either Transmission and Distribution of Electric Power, Generation of Electric Power, Electrical Power Engineering in Transport, Electrical Machines and Devices, or Commercial Electrical Engineering, s well as an understanding of the possibilities, conditions and limitations of applying the findings of the related areas. - Skills Graduates are able to independently define and creatively deal with theoretical or practical problems of the branch, using their professional knowledge; independently and creatively solve a complex problem using selected theories, concepts and methods of the branch; apply some of the advanced research procedures of the branch enabling them to gain new, original information. - General competencies: Graduates are able to make independent and responsible decisions in new or changing contexts or in a developing environment with respect to broader social consequences of the decisions; define the assignments for professional activities according to the developing contexts and available sources, to coordinate them, and bear ultimate responsibility for the results; deal with an ethical problem independently; communicate to both experts and the public his/her own opinion in a comprehensible and convincing way; use their professional knowledge, expert skills and general qualifications in at least one foreign language; plan, support and manage the acquisition of further professional knowledge, skills and qualifications of other team members. Occupational Profiles of Graduates The graduates in Electrical Power Engineering are able to deal with operational and technical problems in the spheres of production, transmission, distribution and the use of electric energy. The graduate can find employment in leading and managerial positions at the stage of assembly, implementation, maintenance and operation of electrical equipment, in technical, design, investment, and operational departments of power plants and distribution companies, in power control rooms, departments of preparation and operation of electrification systems, in technical, designing, investment, assembly, and operational departments of industrial companies, in the area of the use of electrical energy in industry when dealing with the issues of electrical drives, electric heating equipment, electric lighting of indoor and outdoor areas, at testing laboratories, technical testing, and at research and development institutes. Admission Requirements Determined by Dean, may include entrance examination, specific courses taken during bachelor studies, other formal documents. Graduation requirement 120 ECTS Credits, Final state examination, Diploma thesis Course Structure Diagram with ECTS Credits 30 ECTS credit per semester. [-]

Integrated Master's in Industrial Electronics and Computers Engineering

University of Minho - School of Engineering
Campus 10 semesters September 2017 Portugal Braga

The course's main goal is to train graduates prepared to take on a professional activity in the domain of Electronics and Computers Engineering, i.e., which are able to specify, design and implement electronic systems and/or devices in several specialization areas: Automation, Control and Robotics; Electrotechnics and Energy Systems; Computer Technology; Microtechnology and Instrumentation; Telecommunication Systems. [+]

Academic degree: Bachelor (Bologna 1st cycle degree), Master's degree ECTS: 300 Duration: 10 curricular semesters Regime: Normal Place: Azurém Campus, Guimarães Main Scientific area: Informatics and Electrotechnics Engineering INTEGRATED MASTER’S | 5 YEARS The course provides graduates (3 years) a wide spectrum of skills with a strong practical component in the digital and analogical electronics, eletrotechnic, control and informatics, which allows them to develop integration projects. The teachers provides advanced training that enables them to design and implement systems and / or devices in two of six areas of specialization to choose from: automation and robotics, energy, microelectronics, software and dedicated computer, and telecommunications and information technology. Professional careers include developing equipment companies and services in these areas. Careers The companies? permanent need of larger development, modernisation and internationalisation constitutes a primary and continuous source of employment for the graduates in Industrial Electronics and Computers Engineering. The employment rate is nearly 100%. [-]

MSc in Embedded Electronics Engineering

Lund University
Campus 2 years September 2017 Sweden Lund

Embedded Electronics Engineering offers a wide perspective, where digital and analogue design are regarded as one unit in which different domains interact. [+]

Programme overview

Embedded Electronics Engineering offers a wide perspective, where digital and analogue design is regarded as one unit in which different domains interact. The focus is on CMOS, where billions of devices are used to build a system on a single silicon die. The programme is demanding and unique in its offering, a perfect preparation for your future career. It spans areas from radio frequency (RF) circuits through to data conversion and digital circuits. Another distinguishing programme feature is that circuit design is linked to the area of wireless communication, where RF front-ends are co-designed with digital baseband, which provides the opportunity to build complete transceivers. Due to the extensive local industry, the programme is closely linked with a variety of private companies, which ensures that our courses maintain high market relevance. In some cases our students’ degree projects result in patent registrations and the opportunity to publish their work at international conferences. ... [-]


Advanced Master Embedded Lighting Systems

ESTACA
Campus 400 hours September 2017 France Paris

The vehicle lighting sector is currently undergoing major change with the development of new technologies like LED lights, as well as new and complex lighting systems functionalities. This changing landscape provides an opportunity to explore new avenues for innovation based on lasers, smart lighting solutions and new lighting functionalities. Therefore, three major Engineering Schools in Transportation Engineering (ESTACA), Optical Sciences (Institut d’Optique Graduate School) and Design (STRATE – Ecole de design) join their experience in engineer training to develop a high-level international Advanced programme designed for training cross-skilled engineers for the field of vehicle embedded lighting systems. The training structures are strongly connected to research and actively supported by industrial players. [+]

THE HIGH-LEVEL INTERNATIONAL TRAINING CURRICULUM IN VEHICLE LIGHTING SYSTEMS The vehicle lighting sector is currently undergoing major changes with new technologies such as LED lights, as well as new and complex lighting systems functionalities. This changing landscape provides an opportunity to explore new avenues for innovations based on lasers, smart lighting solutions and new lighting functionalities. Therefore, three major Engineering Schools in Transportation Engineering (ESTACA), Optical Sciences (Institut d’Optique Graduate School) and Design (STRATE – Ecole de design) join their experience in engineer training to develop a high-level international Advanced programme designed for training cross-skilled engineers for the field of vehicle embedded lighting systems. The training structures are strongly connected to research and actively supported by industrial players. AIM: To train future project managers, department managers and experts in the field of ligthting systems. In an integrated vision from design to production including creative design, optical, mechanical and system design, simulation and virtual prototyping, embedded power and intelligence. PROGRAMME BENEFITS: High-level international training curriculum, 100% in English, with a broad international attendance (students from Korea, China, Spain, USA, France in last session) Leading edge and pioneer in lighting systems, with LEDs, laser sources, intelligent systems, to prepare for future lighting systems in Automotive or Aerospace, providing both theoritical and hands-on knowledge for all lighting applications. In a fast growing domain, outperforming systematically the global automotive growth, thanks to the strong increase of the technical content, and forecasting to recruit +15% to +30% engineers between 2014 and 2020 A program run by leading experts in the field of vehicle embedded lighting systems tailor-made to suit industry needs, with the strong support of industrial partners, currently hiring new graduates worldwide A program delivered by higher education institutions in optics, embedded systems and design in Paris area in France A post graduate degree accredited by CGE (Conférence des Grandes Ecoles - France's top-ranking engineering colleges): “Advanced Master” ("Mastère spécialisé©" in French),undergoes a rigorous accreditation procedure that guarantees the programme’s quality SYLLABUS: 400 hours of academic coursework (in 2016, from September 5th to December 16th) 6 SESSIONS COVER OPTICS & PHOTONICS FOR LIGHTING (INSTITUT D’OPTIQUE GRADUATE SCHOOL), THEY INCLUDE: Basic training in optics and photonics ; sciences, technology and applications of light sources including lamps, discharge tubes, LEDs, OLEDs and lasers ; photometry of sources and optical Systems, colorimetry ; Optical systems design and shaping of illumination using complex surfaces, light guides and diffractive optics ; computer assisted optical design ; 2D & 3D photometric Simulations, realistic and physico-realistic rendering of illumination and aspect, measurement and simulation of surface aspects, vision and cognition. 2 SESSIONS COVER EMBEDDED SYSTEMS (ESTACA), THEY INCLUDE : Embedded electronic driving and regulation of sources ; hardware dimensioning ; servo controls, actuators, sensors including visible and infrared cameras ; Embedded energy management ; Electrical & electronical vehicle architecture ; Embedded intelligence for illumination and driving assistance ; system design and CAD. 3 SESSIONS COVER RELATED TECHNOLOGIES (ESTACA), THEY INCLUDE : Mechanics and materials: design and CAD, process including injection, Tools, assembly & plastic welding, surface processing ; environment simulation: humidity, thermal, impacts & vibrations ; Integrated design of embedded lighting systems, prototyping and industrialisation ; regulatory requirements: regulations and standards ; Patents and industrial property. 1 SESSION COVERS CREATIVE DESIGN OF LIGHTING SYSTEMS (STRATE Ecole de design), IT INCLUDES: Industrial design, awareness, vocabulary, creativity A PROFESSIONAL THESIS of 6 months minimum in a lighting company, between January and July. ASSESSMENT: Teaching modules assessed via exams and case studies Academic project & Professional thesis assessed with a dissertation JOB PROSPECTS: In a highly competitive international context, the program meets the needs for advanced skills of all players in the value chain: car manufacturers, lighting systems and components suppliers, and engineering service providers. INDUSTRIAL PARTNERS: Renault, PSA Peugeot Citroën, Valeo, Automotive Lighting, Osram, Nertrandt, Mentor Graphics COURSE BREAKDOWN: Lectures, case studies, team work project and management, LANGUAGE: English NUMBER OF CREDITS: 75 ECTS LOCATION: The faculty will be based in Paris-Saclay, near Paris, in the heart of a high-growth area offering dense and diversified scientific and technological potential. Classes, tutorials and labs will be hosted at ESTACA (Montigny le Bretonneux), Institut d'Optique Graduate School (Paris-Saclay) and Strate – School of Design (Sèvres) (link to maps) ELIGIBILITY: This program is open to all international and French students holding a Master of Science (preferably in scientific fields). Applicants must prove an engineering degree recognized by the Commission des Titres d’Ingénieurs (Commission for Engineering Degrees), or a master degree or equivalent, or a foreign degree equivalent to one of those. Applicants should have English language proficiency at the B2 level (minimum paper based TOEFL: 575 or TOEIC: 785) A limited number of applications, not fulfilling the degree criteria but with outstanding credentials INFORMATION AND ADMISSIONS: embedded-lighting.com PRICE: 13 000€: Full Fee 11 000€: Reduced fee for recently graduated students Fee can be reduced by 50% or 100% for a limited number of self –sustained students [-]

MEng in Electronic Systems

Dublin City University
Campus 1 year September 2017 Ireland Dublin

This one year, full time Masters programme is designed to deepen students’ understanding on electronic systems. If you are ambitious, want to stay abreast of new developments, wish to enhance your qualifications, are prepared to commit time to personal development and yet have limited opportunity for on-campus attendance, then this programme structure is designed for you. You can take courses remotely over the WEB - the distance learning option, attend lectures on-campus, or mix and match combining on-campus and distance learning to suit your particular circumstances. [+]

Top Part time Masters in Electronics in Europe. Introduction This one year, full time Masters programme is designed to deepen students’ understanding on electronic systems. If you are ambitious, want to stay abreast of new developments, wish to enhance your qualifications, are prepared to commit time to personal development and yet have limited opportunity for on-campus attendance, then this programme structure is designed for you. You can take courses remotely over the WEB - the distance learning option, attend lectures on-campus, or mix and match combining on-campus and distance learning to suit your particular circumstances. Who is eligible? To apply for this programme you must have a good honours degree in Electronic/Electrical Engineering, Applied Physics, Computer Sciences or other Engineering disciplines. Candidates whose first language is not English will be required to submit evidence of an English Language qualification. For more information on entry requirements please consult our website. Choice of Majors Internet of Things - This innovative Major addresses the emergent significance of the design and networking of Internet-connected embedded devices and technologies. The Major will provide graduates with knowledge, skills and competencies in the areas of real-time signal processing, data analysis and machine learning, connected embedded systems and network programming. At the forefront of current and future electronic and computer engineering developments, this Major offers a unique opportunity in the area of IoT. Nanotechnology - The aim of this Major is to deliver leaders in nanoelectronics, high-level logic synthesis and photonics - strong interdisciplinary sectors with huge growth. This Major focuses on the skills and knowledge required to produce functional electronic and photonic devices and constituent structures of nanometre dimensions. It will also provide graduates with expertise in modern semiconductor manufacturing practices, methodologies and technologies. Image Processing and Analysis - The growth of applications in manufacturing, biomedicine, media, ICT and the life sciences is creating a strong demand for graduates in the Image Processing & Analysis field. This Major will prepare graduates to specialise in the areas of image processing and analysis, computer & machine vision, biomedical imaging and image synthesis techniques. Structure The MEng in Electronic Systems is designed to be completed in one calendar year of full-time study. It consists of two (full-time) taught semesters, followed by a practical project, completed between May and early September. The next intake for this programme will be September 2017. DCU offers a number of scholarships to international students each year. To be eligible to apply for a scholarship from DCU you must first apply to and receive an offer for a DCU Masters programme. Apply online for September 2017 entry at www.pac.ie/dcu using the PAC code DC800 [-]

Faculty of Automation and Computing

Technical University of Varna
Campus October 2017 Bulgaria Varna

Departments - Automation of manufacturing - Computer Sciences and Technologies - Electronic and micro-electronic engineering - Communication engineering [+]

Departments Automation of manufacturing Computer Sciences and Technologies The department offers training on the following majors: Software and Internet Technology Computer systems and Technology Studies’ curriculum for the first time in Bulgaria is fully in line with international standards for training in computer science and technology. CST Department regularly update their curricula, thereby allowing the latest achievements in the field of computer science and information technology to be promptly provided to the students. Updating curricula is based on the job market requirements for IT professionals on the most recent recommendations of the IEEE (World Organisation of Electrical and Electronic Engineers) and ACM (Association for computing machinery), and ongoing academic programs of leading universities. Electronic and micro-electronic engineering Electronic engineering is one of the most high-tech and dynamic fields. It has significant influence and applications in many other scientific and technical fields. With their extensive knowledge and adaptive capacity "Electronics" graduates are well prepared for successful careers in services, manufacturing, consulting and design of electronic components and systems used in industry, medicine, communications, computers, etc. Department "Electronic engineering and Microelectronics" maintains close ties with industry and extensive international contacts. Research and applied research in the department are mainly in: Electronic controllers and power electronic converters; Modern technologies for the design of integrated circuits and electronic systems, microprocessor-based control, management and diagnostics systems; Medical electronic equipment for prevention, diagnosis and therapy; Information and measurement systems, industrial controllers and sensors. Students of "Electronics" can enjoy the rich library of technical periodicals issued by the global organization of engineers in electronics and electrical engineering IEEE. They can obtain through INTERNET additional information on the developments in electronics and other sciences. Laboratories have the latest reference and catalog literature. Communication engineering The department is part of the EE Faculty at the Technical University of Varna and is responsible for special training in "Communications Equipment and Technologies" in "Bachelor" and "Master’s" degrees. The Department provides training on specific subjects as well as other subjects and modules in the EE Faculty, and the Technical University - Varna. The department has laboratories equipped with modern measuring instrumentation in the field of communications and computers, in which the lecturers and students can perform training and research work in the following areas: communication circuits, radio waves and radio lines, analog circuitry, antennas and microwave equipment, measurements in communications, optoelectronics and optical communications, digital transmission systems, signal processing, switching and multiplexing technique, radio communication equipment, terminals, television and video, data and computer communications, audio equipment, telecommunications networks, radio navigational instruments, radio finding cable communication lines; sonar equipment. [-]

Master in Communications, Multimedia and Electronics

Czech Technical University in Prague
Campus 2 years October 2017 Czech Republic Prague

Communication Systems [+]

Top Part time Masters in Electronics in Europe. Field of Study - Communication Systems Entrance Exams Yes Entrance Requeirements - fully completed application form - relevant bachelor degree - interview Level of English provide communication skills during the admission procedure Scholarship not for the first year students [-]

Radio and Audio Production

Birmingham City University Faculty of Art, Design and Media
Campus Part time 1 - 3 years September 2017 United Kingdom Birmingham

Radio is an ever changing medium. The Master’s in Radio and Audio Production reflects this evolution by covering tradition AM/FM broadcasting alongside digital systems of distribution, such as DAB, podcasting, streaming and audio downloading. This postgraduate courses seek to develop reflective professionals in the media, creative and cultural industries, who can operate at the forefront of the academic discipline and of professional practice. The curriculum emphasises enterprise skills, engagement with new communication technologies. [+]

The course places a great deal of emphasis on professional practice in contemporary radio production. Students will become proficient in industry standard digital equipment while gaining a deeper understanding of current techniques and strategies relating to prerecorded radio packages and live speech/music based radio broadcasting. As well as enriching their practical skills, students are expected to engage in debates and evaluate existing research on the subject, as well as critically appraise professional practice and their own scholarly work. It encourages them to commit to their own continuing professional development.

Entry Requirements

Candidates should have a 2:1 Bachelor’s degree or higher in a relevant subject area and should be able to demonstrate evidence of work in, or a familiarity with, the international media. We welcome non-traditional applications, particularly from applicants with substantial professional or production experience. Prior experiential learning is an acceptable route to the course.... [-]


Master In Electronic Engineering

University of Cagliari
Campus 2 years October 2017 Italy Cagliari

The course in electronic engineering degree favors the development of cross-functional knowledge and skills all'acquisire mastering the techniques of electronics and its applications in different fields of information engineering. [+]

Top Part time Masters in Electronics in Europe. Access to further studies. Courses of Third Cycle Professional status of the title. public and private sectors. 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 work will consist of a critical analysis of the state or the drafting of a project at least rough or the development of methods and techniques with a degree of originality or a transfer of methods and techniques from different fields in areas of ' information Engineering. The discussion will be held in front of a commission and you can make use of graphic media and IT. Skills required for access. Subject to the possession of the title of university studies degree as provided by law, for access to the course in electronic engineering master laura require the following knowledge and skills: - Ability to understand the text of the written and spoken language such as to identify key aspects of engineering problems. expression skills in spoken and written Italian language such as to allow the provision of reports on technical and engineering relevant topics in the form both colloquial and formal and drafting of project documents. - Ability of the English language, both written and spoken, at least at B1 level. - Logical capacity sufficient to allow us to abstract the fundamental aspects of engineering problems and to identify the cause-effect relationships of physical phenomena. - Knowledge and ability to use some advanced tools of mathematics: *) differential and integral calculus in one and several variables; *) Ordinary differential equations; *) Algebra and vector analysis; *) Matrices, systems of linear equations, eigenvalues ​​and eigenvectors; *) Laplace transforms and Fourier. - Knowledge and ability to understand and describe the main phenomena of physics: *) Mechanical; *) Oscillations and waves; *) Thermodynamics and energy principles; *) Electrostatic and electrodynamics; *) Electromagnetism. - Knowledge and ability to understand and describe the main phenomena of Chemical: *) structure and state of matter; *) Chemical reactions; *) Organic and inorganic chemical compounds. - Knowledge, application knowledge and skills in key areas of information engineering: *) theory and engineering applications of electrical and electronic circuits; *) Structure of matter and characteristics of electronic devices; *) Electronic systems for the analog and digital processing of electrical signals; *) Analysis and feedback control of linear dynamic systems; *) Processing, coding and transmission of electrical signals; *) The structure of computer systems and modern programming languages; *) Emission, transmission and reception of electromagnetic waves; *) Measure theory and operational methods for electrical and electronic measures. The possession of the above mentioned requirements will be verified on the basis of the curriculum and any admission tests for verification of personal preparation, in the manner provided by the academic regulations of the course of studies. specific educational goals. The course in electronic engineering degree favors the development of cross-functional knowledge and skills all'acquisire mastering the techniques of electronics and its applications in different fields of information engineering. Title conferred. Degree in Electronic Engineering Dublin Descriptors: I - Knowledge and understanding Graduates in Electronic Engineering will have acquired knowledge: 1) the methodological and operational aspects of mathematics and natural science related electronic engineering, and computer engineering in general; 2) the methodological and operational aspects of basic and advanced the following specific subjects for electronics engineering: electronics, electrical and electronic measurements, electromagnetic fields, to a level that you can understand and promote technological innovation in the sector; 3) of the advanced methodological-operational aspects of engineering disciplines type of particular interest for the information engineering, and electronics in particular, with specific reference to: for information processing systems, telecommunications, automatic, to a level enabling technology transfer; 4) of the main aspects of economic / social related to the profession of engineer; 5) the specific characteristics of advanced electronic engineering applications in at least one field of engineering information, useful for advanced and innovative applications. Our knowledge of the point 1) have occurred on the basis of satisfying the input requirements and are strengthened in the two years of the course and through their use for the formalization of the phenomena analyzed and the development of advanced engineering techniques in the various engineering courses that through optional and specific related teachings. The specific knowledge set out in points 2) and 3) are checked on the basis of the satisfaction of the input requirements, as regards the basic ones, and thus, as regards those advanced, developed and acquired through optional compulsory courses referring to specific sectors information engineering. The knowledge referred to in point 4) will be developed both through teaching and / or optional internship activities within specific vocational courses in engineering electronics. Knowledge defined in paragraph 5) are acquired either through compulsory courses and optional professionalizing through activities related to the individual work will be the subject of the thesis. As well as through the exams for the various teachings, the acquisition of knowledge and understanding can also be verified through reports and / or interviews during technical / practical activities. II - Applying knowledge and understanding Graduates in Electronic Engineering will have developed: 1) the ability to apply knowledge of mathematics and other basic sciences to interpret and describe, even in an original way, the information engineering problems , and in particular electronic; 2) the ability to design tests and experiments on both virtual and real complex systems and understand the results in order to develop innovative solutions to solve typical engineering problems in information engineering, especially in the field of electronics; 3) the ability to apply their skills and to identify solutions to complex engineering problems is to justify, support and argue its technical choices, even innovative, in the context of information engineering profession. These skills are mainly developed in the teachings core and related mandatory through discussion and examination of case studies, as well as during any technical / practices designed activities for integration into the working world. III - Making judgments The Graduate Degree will be able to make its own assessment and / or judgment based on the interpretation of the available data and abstract patterns, as well as identify ways, including original and innovative, the additional data collection that may be necessary in order to achieve greater certainty about complex information engineering issues, particularly electronics. This is expressed by the capacity of knowing how to do, knowing how to take initiatives and decisions in the awareness of the risks, taking into account both the evolution and development of the technique also impact economic and social choices. Well as through specific courses aimed learning the techniques for developing formal models and acquisition and processing of data and signals, these capabilities will be developed throughout the course of studies through the integration of the teachings. The verification of the maturity and independence of judgment is carried out continuously by the teachers during the training through periodic and final audits. In particular, the teachings that provide for significant design component, through exercises, term papers and / or laboratory work, and the final test, based on an original work, to assess the ability of independent judgment of the student. IV - Communication skills The Graduate Degree must know to communicate effectively to the party's ideas and proposals for solutions, including innovative and high complexity, clarifying their ratio as well as information, both technical and general. Will know how to choose the form and the appropriate means of communication interlocutor, both specialist who does not specialist. This will be expressed through the ability to properly use both the technical language that the formal and knowing how to illustrate in a clear and simple concepts and typical information engineering issues, particularly electronics. He will be able to communicate effectively in written and oral form, in English, as well as in Italian. Communication skills input, whose minimum level is considered certified by the graduation of university studies degree, are developed through the teaching of teachers who, using various forms of communication, are an example of effective communication. The exams, providing overall both written and oral evidence, constitute both an incentive to develop both main forms of expression that a verification of the achievement of the same opportunity. It will be valued the acquisition of additional language skills through the recognition of credits for the achievement of knowledge claims of foreign languages ​​at least at level B1, and B2 with respect to the English language. Language / and official teaching, and assessment of the preparation. ITALIAN V - Learning skills The Graduate Degree in Electronic Engineering will have developed self-training skills that are necessary for an engineer to update continuously the evolution of science and technology in the field of information engineering. He has developed the ability to tap into different literature sources, both in Italian and in English, in order to acquire new skills. The Graduate Degree in Electronic Engineering will have the self-learning ability needed to undertake further studies, as a second-level Master courses and Doctorate in the field of information engineering, and in particular electronics, as well as to undertake the task working at research centers and advanced design. its development with regard to advanced and innovative themes of information engineering is achieved with constant reference to various literature sources, also in English giving for granted a significant learning skills certified by the achievement of the university studies of the first level degree, for the preparation of the exams and the final exam. In addition, to facilitate this objective, the Study Programme can organize special seminars on topics of interest to an engineer information. The verification of the ability to learn is contextual to the skills assessment during the exams, including through the use, for some courses, for verification terms that require the preparation of a paper on untreated cases during the courses. [-]

Master of Electronic and Electric Engineering

Klaipeda University
Campus 2 semesters September 2017 Lithuania Klaipeda

Master in Electrical Engineering of Electrical Equipment and Automation in Industry has: a grasp of the essential principles of electrical engineering the ability to apply basic engineering principles and analytical techniques to problem formulation and solution, understanding of the engineering design process, at both the conceptual and detail levels a familiarity with the key factors in the business... [+]

Master of Electronic and Electric Engineering Master in Electrical Engineering of Electrical Equipment and Automation in Industry has: a grasp of the essential principles of electrical engineering the ability to apply basic engineering principles and analytical techniques to problem formulation and solution, understanding of the engineering design process, at both the conceptual and detail levels a familiarity with the key factors in the business environment such as marketing skills, financial awareness and investment appraisal and a range of transferable skills including communication, numeric use of information technology, project management and team working. Master in Electrical Engineering of Electrical Equipment and Automation in Industry has: a grasp of the essential principles of electrical engineering the ability to apply basic engineering principles and analytical techniques to problem formulation and solution, understanding of the engineering design process, at both the conceptual and detail levels a familiarity with the key factors ine the business environment such as marketing skills, financial awareness and investment appraisal and a range of transferable skills including communication, numeric use of information technology, project management and team working. Access to the third cycle studies. Graduates of Electrical Engineering Master get aquired qualification that gives the right to work as a leading specialist in designing of electric motors and drives as well as in light industry, energetic transport and other companies. There is an opportunity to work at scientific research laboratories, private business. Key learning outcomes Knowledge and Understanding A1 An in- depth knowledge and understanding of technology science electronics and electrical engineering principles; A2 Critical understanding of technology science electronics and electrical engineering course Engineering Analysis B1 The ability to solve unknown, not fully defined problems and tasks, applying known methods; B2 To be able to formulate and solve problems in new and emerging fields of specialization. B3 To be able to apply their knowledge and understanding of conceptualization of electronics and electrical engineering models, systems and processes. B4 To be able to use innovative methods for solving electronics and electrical engineering problems Engineering Design C1 An ability to use electrical engineering knowledge and understanding to design solutions for unfamiliar problems, possibly involving other disciplines; C2 An ability to create new, original ideas and methods of electronics and electrical engineering discipline; C3 An ability to use their engineering knowledge and judgment to work with complex, technically uncertain and incomplete information Investigations D1 To be able to define, locate and obtain required data; D2 To be able to plan and carry out the necessary analytical, simulation and experimental research in electronics and electrical engineering discipline; D3 To be able to critically evaluate data and draw conclusions; D4 The ability to explore the application of new and emerging technologies of electronics and electrical engineering science technology field; Engineering Practice E1 The ability to integrate knowledge of different fields and manage complexity; E2 A comprehensive understanding of applicable techniques, methods and their shortcomings in electronics and electrical engineering; E3 To know about the ethical, environmental and commercial engineering activity limitations; Transferable Skills F1 To be able to be a team leader, that may consist of a variety of disciplines and levels of representatives; F2 Meet the requirements of the First Cycle electrical engineering graduates, required for the Second Cycle level; F3 Work and communicate effectively in national and international context; Occupational profiles of graduates with examples Graduates of Electronic and Electric engineering master programme can successfully work as electrical engineering specialists and administrators, electronic engineering specialists, electromechanical engineers, technicians, safety engineers, maintenance and repair organization engineers, technology engineers, electricians, engineers, etc. Examination regulations, assessment and grading The University applies cumulative grading in order to ensure objective evaluation, active students’ participation during the semester and their ability to apply theoretical knowledge in practice. Cumulative grading final evaluation consists of interim course assignments (test, individual work, paper, laboratory work defence, and etc.) and final exam grades. If the student fails the interim course assignments and does not make to transition grade−minimal grade of determined interim course assessments−he is not allowed to take the final exam. Each study programme is completed by defending final thesis (project) and (or) taking final exams. Graduation requirements Undergraduate and master student’s knowledge, skills and abilities, indicated in the study programme description, are examined and evaluated during the public defence of his Final thesis. Final thesis by its nature can be scientific research or scientific-applied. Final thesis is analytical work based on independent scientific or applied research. A Bachelor’s thesis comprises 12 credits; Master’s thesis comprises 30 credits in the study programme of 120 credits or 24 credits in the study programme of 90 credits. Final thesis and its defence is to demonstrate student’s creativity and the ability to critically evaluate theoretical and practical innovations, as well as others’ previously carried out researches and their results; to indicate student’s knowledge in social and commercial environment, legislation, and financial capacity; to show information sourcing and its qualified analysis skills, computational methods and specialized software and general-purpose information technologies using skills, as well as the ability to clearly and correctly orally or in written present their research results and (or) product designed to different audiences. Final thesis is defended publicly in front of the Study Field Qualification Committee approved by the Rector. All members of the Qualification Committee evaluate the final thesis and its defence in separate grades in ten-point grading system. Weighted coefficient of defended grade is up to 0.2. The final grade is the arithmetic average of the grades given by the Qualification Committee members, rounded to the nearest whole number. [-]

Master in Intelligent Adaptive Systems

University of Hamburg, School of Mathematics, Informatics and Natural Sciences
Campus Part time 2 years October 2017 Germany Hamburg

Intelligent systems and robots are expected to become an integral part of our daily lifes. In order to be accepted by and interact efficiently and naturally with humans, they have to adapt to changing environments and the users they interact with. Intelligent systems [+]

Intelligent systems and robots are expected to become an integral part of our daily lifes. In order to be accepted by, and interact efficiently and naturally with, humans, they have to adapt to changing environments and the users they interact with. Intelligent systems are expected to automatically  acquire and manage knowledge through a variety of sensors and to learn and optimise their behaviour over time. This international Master's programme aims to provide students with the ability to create these intelligent adaptive systems and to prepare them for a future market, where intelligent and adaptive behaviour is considered the standard for computer systems.

As one of the few computer science programs in Germany that are taught completely in English, the Master course „Intelligent Adaptive Systems“ prepares students for international research and professional work. Following a balanced approach, it is placed in between programs with a purely technical focus and programs that offer a general computer science curriculum. Its curriculum is focused on the area of smart technology and intelligent adaptive systems and provides in-depth training in this area. The selected modules provide a comprehensive overview including technical aspects and state-of-the art algorithms and methods. Students are introduced to current research in the corresponding fields and have the opportunity to deepen the acquired knowledge by participating in international research projects. The Master in Intelligent Adaptive Systems is a 2-year research oriented programme that is taught in English. Students, both national and international, can profit from an international environment and improve their grasp of the English language and knowledge on cultural differences. The inter-student exchange is fostered in seminars and work groups and extended in extra-curricular discussions and activities. Through the proximity to current research projects, students have the possibility of a smooth transition into collaborative research environments and continuing education and study.... [-]