Part time Master's Degree in Electrical Engineering

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Electrical Engineering

A Masters degree is an academic degree awarded to individuals who successfully denote a higher level of expertise. There are two main types of Masters - taught and research.

The need of electrical engineers is never ending in this world, therefore, all the professionals who belong to this field have good careers, and they make good money. Hence, Masters in Electrical Engineering is a very popular degree program.

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Master of Engineering: Electrical

University of Windsor
Campus Part time 3 - 5 semesters September 2017 Canada Windsor

In order to graduate with an MEng degree, a student must successfully complete eight graduate-level courses, including five from their area of specialization plus one more engineering course (from any department) and no more than two non-engineering courses. [+]

Best Part time Masters in Electrical Engineering 2017. MEng Program Information In order to graduate with an MEng degree, a student must successfully complete eight graduate-level courses, including five from their area of specialization plus one more engineering course (from any department) and no more than two non-engineering courses. Alternatively, a student may choose to complete all eight courses within their area of specialisation. ELECTRICAL ENGINEERING AREAS OF SPECIALIZATION Research is carried out in the broadly defined area of Signals and Systems. Within the area of Signals and Systems such research topics as digital signal processing, microsystems, communications and computers are investigated. General The Master of Engineering (MEng) degree offered at the University of Windsor is a course work professional program open to students who satisfy the admission requirements. The MEng Program takes three to five semesters to complete but is structured in such a way that it may be completed in one year by a full-time student. The minimum period of full-time registration for the MEng degree is three semesters and the maximum allowable time is five semesters. For part-time students, the minimum period of registration for the MEng degree is six semesters and the maximum allowable time is fifteen consecutive semesters. Practical work-experience placements (paid and unpaid) may be available for full-time students only, but cannot be guaranteed. Schemes of Study The Master of Engineering may be taken by full-time students or those who wish to study on a part-time basis while remaining in full-time employment external to the University. All applicants for the MEng program are expected to be entirely self-funded and no financial assistance will be provided by the Faculty of Engineering or the University of Windsor. International students are admitted as full-time students only. Full-Time Students will be: required to register for a maximum of three courses per semester, required to register for a minimum of two courses per semester, expected to complete all degree requirements within 5 academic semesters. Part-Time Students will be: required to register for a maximum of admissible two courses per semester, required to complete all degree requirements within 15 academic semesters and should not have more than two semesters of continuous "inactive" status Admission Requirements The Department should approve the application and in addition, MEng applicants shall be recommended for admission by the Faculty of Engineering Coordinator. Official admission to any program of graduate studies is in the form of a "Letter of Acceptance" issued by the Faculty of Graduate Studies. Please note that the following are minimum requirements and do not guarantee admission. Undergraduate degree (BASc / B.Sc. / B.Eng. degree or equivalent*) with at least 73% average over the last two years. International applicants are advised to refer to the specified minimum admission requirements, listed by country, at the Faculty of Engineering’s Professional and Graduate Studies (FEPGS) website and the Faculty of Graduate Studies website. *Candidates with degrees in such areas as Mathematics, Physics and Computer Science will also be considered. Students whose undergraduate degree programs do not provide them with sufficient background in Design, Applied Science and Professional/Technical communications are required to enter a qualifying program of courses at the undergraduate level before admission to candidature for the MEng degree. Students entering and successfully completing the MEng qualifying program may receive an Advanced Certificate in Engineering. A candidate who has not fulfilled the minimum requirement of 73% average may be admitted to the MEng Program as a probationary student** provided that he/she has either: at least 2 years of industrial or engineering experience following graduation or achieved at least 77% overall standing in the Final Year of the graduation. **Such candidates will be required to achieve a grade of at least 73% in the first two MEng courses to be regularized in the MEng Program. The language of instruction for the MEng courses is English. Applicants will be required to provide certification of English language proficiency, if he or she has: not completed three or more years of post-secondary work at a Canadian institution or at an institution at which English was the primary language of instruction***, *** Countries in which English is the Official Language of Instruction, as recognized by the Faculty of Engineering are listed on the Faculty of Engineering’s FEPGS website and the Faculty of Graduate Studies website. English Language proficiency may be met by the language coursework at the secondary school level in the countries listed on the FEPGS website. or not been employed for a similar period of time in a position in which English was the primary language of business. Where applicable a student’s certification of English language proficiency can be demonstrated by a minimum score set by the department. For minimum requirements in other equivalent exams, information is available in the Faculty of Graduate Studies web-site. The Faculty of Engineering and the Faculty of Graduate Studies reserve the right to require further demonstration of English Language proficiency. The Department may consider for admission to its degree programs students from outside Canada who have excellent academic preparation, but who do not meet the usual standards of English language proficiency. Successful completion of the English Language Improvement Program (ELIP) will be considered as a means to gain admission to the Department for such students. Students who do not meet the academic requirements outlined above may be considered for admission to a transitional, probationary or qualifying program depending on their academic background. Students seeking admission to the Department’s MEng programs must also complete the Department’s Graduate Student Information Form and the Faculty of Graduate Studies Admission Reference form. Program Requirements An MEng Degree may be awarded upon successful completion of a total of 8 courses (the MEng has no research component/thesis/work with a faculty supervisor). Of these 8 courses ... 5 to 8 must be from the student's department (major; electrical, electrical-computer, mechanical, materials, industrial, environmental, civil) 0 to 3 may be from another engineering department 0 to 2 may be from a department outside of engineering Co-op work experience is optional [-]

Master of Engineering Science (Electrical Engineering)

Curtin University
Campus Part time 2 years February 2017 Australia Bentley

This course is designed to meet the needs of electrical, electrical power, electronic and telecommunication engineers who are looking to open up their career prospects. [+]

Master of Engineering Science (Electrical Engineering) This course is designed to meet the needs of electrical, electrical power, electronic and telecommunication engineers who are looking to open up their career prospects. You will specialise in one of three majors: Emerging Power Systems, Telecommunication and Networking, or Embedded Systems. Among a wide range of optional units, you may study electrical power, renewable energy, communications and computer engineering at the system level and the component level. The course is designed to allow you to undertake further studies in a field of your preference through advanced coursework and a major project, ultimately developing a prototype and presenting a formal thesis on the outcome. With the approval of the course coordinator, you may also include a unit from the Curtin Business School, or the Department of Computing, or the Department of Mathematics and Statistics. EMERGING POWER SYSTEMS (314675) Global demands on resources have placed an urgent emphasis on supplying a growing population with affordable, environmentally responsible power. How we manage this challenging paradigm will rely on a new generation of creative, technically savvy engineers. Since fossil fuels are a finite resource, the development of alternative sources of electrical energy such as solar and wind is vital. The challenges that face you as a power engineer include interfacing renewable sources to the electricity distribution system, maintaining stability in the presence of many small energy sources and guaranteeing an electrical supply in the presence of intermittent sources such as solar power. This major addresses challenges in the generation, transmission and distribution of electricity. Emergent technologies like smart grid and distributed generation are covered in detail. You will have the opportunity to further investigate and apply emergent technologies through your project work. TELECOMMUNICATIONS AND NETWORKING (314676) The electronics and communication fields represent two of the greatest growing technology areas in the world. With the rapid progress of information technology, the role of communications is becoming even more crucial for increasing industry efficiency and competition – whether machine talking to machine, computer with computer or human with human via a wide array of methods. This major explores relevant topics in telecommunications and networking like mobile radio communications and data network security. The wide range of optional units includes topics such as computer architectural philosophies, LAN and WAN technologies, electromagnetics, error control coding, troubleshooter management, legal frameworks, and system design. You will also have the opportunity to further investigate a specialist area and apply your skills and knowledge through your project work. EMBEDDED SYSTEMS (314677) Our world is characterised by the ever-increasing number of intelligent devices which have inbuilt or 'embedded' computers. Computers in the form of microprocessors are being embedded in almost every other form of system to control them or provide additional services, creating a strong demand for electrical engineers in all industrially advanced nations. In this major, you will study intermediate and advanced topics in embedded systems, for example, embedded systems in field-programmable gate arrays (FPGAs) and embedded software engineering. You will have the opportunity to further investigate and apply emergent technologies in embedded systems through your chosen advanced project. Credit for previous study Applications for recognition of prior learning (RPL) are assessed on an individual basis. Australian & NZ students ENTRY REQUIREMENTS: A bachelor degree in electronic, communications, electrical, electrical power or computer systems engineering from a recognised university. WHERE: Bentley WHEN: February or July HOW: Full-time or part-time STUDY: On-campus DURATION: Expected completion: 2 years International students 2015 ENTRY REQUIREMENTS: Minimum English language entry requirements: IELTS ACADEMIC (INTERNATIONAL ENGLISH LANGUAGE TESTING SYSTEM) Writing 6.0 Speaking 6.0 Reading 6.0 Listening 6.0 Overall band score 6.5 Certificate in Advanced English (CAE): Grade C Pearson Test of English Academic: 58 WHERE: Bentley WHEN: February or July HOW: Full-time STUDY: On-campus DURATION: 2 years full-time [-]

Master of Science (MSc) in Electrical Engineering (MSEE) - Online

University of North Dakota
Online Part time 2 years January 2016 USA USA Online

The mission of the Department of Electrical Engineering's Master of Science program is to promote critical thinking and creative skills based on the theory, principles, and techniques of electrical engineering. [+]

Best Part time Masters in Electrical Engineering 2017. Master of Science Degree Begins every Fall (August) and Spring (January) 32+ Credits 2 Years to Complete 100% Online Independent Study Semester-based Courses UND's MSEE Program The Department of Electrical Engineering offers an online Master of Science (M.S.), non-thesis degree, through an independent study format. The Department of Electrical Engineering maintains strong research emphases in: applied electromagnetics antenna design biomedical signal and image processing biomedical device design cognitive radio microwave and radar engineering mobile health-monitoring neural and cardiovascular engineering power electronics renewable energy systems sensor networks signal and image processing smart grid modeling unmanned aerial systems wireless communications Program Mission & Goals The mission of the Department of Electrical Engineering's Master of Science program is to promote critical thinking and creative skills based on the theory, principles, and techniques of electrical engineering. Graduates will be prepared for careers in private industry, government, and/or doctoral studies in electrical engineering or related fields. Goals: Students will develop a comprehensive and in-depth understanding of electrical engineering through graduate-level coursework. Students will develop critical thinking skills through research activities or focused project activities. Students will develop skills to communicate the results of their research in an effective and professional manner. Who Should Apply? If you are seeking to further your education and obtain a master's degree in Electrical Engineering, consider our 100% online, MSEE degree. Our program is designed for individuals with Bachelor's in EE; however, related fields are encouraged to apply. Admission Requirements Bachelor of Science degree in Electrical Engineering or closely related field. Students holding B.S. degrees in other fields, e.g., physics, mathematics, and computer science, may be admitted to Provisional or Qualified status until selected undergraduate requirements in electrical engineering have been satisfied. An overall undergraduate GPA of at least 2.75 or a GPA of at least 3.00 for the last two years. Applicants holding degrees from non-ABET accredited programs/universities must submit scores from the General Test of the Graduate Record Examination. Most international students will be required to achieve a minimum TOEFL score or equivalent. A minimum score of 550 on the paper-based test or 213 on the computer-based test is required. For the Internet-based TOEFL, minimum scores of 23/30 (speaking), 19/30 (listening), 19/30 (reading), and 15/30 (writing) are required. Applicants may also meet language requirements by presenting IETLS scores of 6.5. Students who have received a Bachelor’s degree or higher from the United States or English-speaking Canada are not required to submit the TOEFL. [-]

MTech in VSLI Design

ITM University, School of Engineering and Technology
Campus Part time 2 - 3 years July 2017 India Gurgaon

The $300 billion global semi‐conductor industry comprises of four different fields i.e., design, fabrication, assembly, and testing. India is trying to take a stand in the global semiconductor market by creating high value work in VLSI design, board design, and embedded systems. [+]

MTech in VSLI Design The $300 billion global semi‐conductor industry comprises of four different fields i.e., design, fabrication, assembly, and testing. India is trying to take a stand in the global semiconductor market by creating high value work in VLSI design, board design, and embedded systems. Companies with domain expertise are driving Indian businesses. India has become the world’s destination for semiconductor design and embedded systems, and is increasingly becoming the source as well. India has proven experience in verification, cutting‐edge digital, analog and mixed signal design. The country’s rapidly developing VLSI and embedded systems industry allows numerous companies to engage themselves into the area of hardware and software co‐development and verification. However, with the advent of technological advancements, the knowledge of device modeling, circuit design, verification, fabrication, and manufacturing is extremely important. It involves workforce as well as, well educated learners in the field. It is very essential for the country to make a mark in creation of skilled VLSI professionals to meet the challenges in the global Semiconductor market. Therefore it is a high time for Indian universities and research centers to develop engineering and science programs in the field of semiconductor ranging from device modeling, circuit design, system level verification, design synthesis, physical design, fabrication, MEMS, Solar Cells, LEDs, OLEDs, and displays. The ITMU’s post graduate program in VLSI Design (a two year course) will help in providing the well trained and skilled manpower to VLSI industry (e.g., Intel, Freescale, STMicroelectronics, Cadence, Synopsys, Texas Instruments, AMD, etc.) and R&D (CEERI, NPL, TIFR, DRDO, C‐DAC, etc.) in India and abroad. ITM University’ course Master of Technology (M.Tech.) in VLSI Design is a very comprehensive and in‐line with the latest trends in the industry and academia. The courses like Semiconductor Device Modeling, Analog & Digital VLSI Design at the device level modeling and circuit level design and analysis laid the foundation to understand and develop expertise in the state of the course like Low‐Power VLSI Design. Similarly, the courses like Hardware Description & Hardware Verification Languages, the VerilogHDL & SystemVerilog will support the future ASICs and SoC level VLSI Design professionals. The objective will certainly remain unfulfilled without an understanding and addressing of the interdisciplinary areas, so the courses like Optimization Techniques, Computer Architecture, Algorithm Analysis, Blue Tooth, Neural Networks and Cryptology have made a part of the curriculum. The best part is it provides a unified hardware & software learning environment to upcoming professionals and imparts a high‐level view of the VLSI ecosystem. It help them greatly in the understanding of the importance and an in‐depth learning of the micro‐level ideas in the electrical, electronics, and computer engineering domain. Features/Highlights ITM University learning environment is two ways‐Teachers to Student and Student to Teacher. This helps the student to imbibe the ideas in more productivity way for longer time. This program is designed to support and meet the need of the VLSI design industry in India/abroad and create future researchers. The program is more practical and hands‐on learning centric. It is designed in reference with the curriculum and course contents of IITs, NITs, C‐DAC, etc., to be in‐line with the best available curriculum in the country and to ensure the best learning platform in the university at the post‐graduate level. The focus on subjective presentation and projects from student is more to create an in‐depth understanding on the subject practices. The courses are extremely detailed and provide ample of time to student to do some research and project work in the area of SC Design. Mini‐Projects, Research Seminar, and Dissertation are specially designed to provide hands‐on skills and research foundation for career in industry and research. As a part of the regular curriculum, the Modular Courses on Linux & Scripting, Project Management, and Personality Development Program (PDP) supports and improves the overall learning skills and professional image of a student. In our pursuit of learning, we forget our health and personality. ITMU as a workplace is extremely competitive and demands the best out of an individual. [-]