Power Distribution Engineering (Electrical and Computer Engineering)

BS Electrical Engineering - MAS Electrical and Computer Engineering
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  • What Does an Electrical Engineer Do?

    • Premium Membership. More Information. Electrical engineering guides and research studies. Electrical and Computer Engineering Electrical and Computer Engineering ECE is a profession that integrates several sub-disciplines including analog and digital circuits and devices, signal processing, communication systems, computer architecture and networking, micro and nanodevices, power systems including rotating machines and power distribution, quantum computing, photonics, sensing, waves and metamaterials.

    Fundamentals of electrical and computer engineering.

    The list of ECE sub-disciplines presented is not exhaustive, but reflects many of the strengths possessed by the faculty at many universities. EECS research is aligned with the Abu Dhabi strategic plan, which calls for diversification of the economy beyond oil and gas, by promoting innovation, entrepreneurship and spinoffs in the fields of semiconductor, energy, and ICT sectors, among others.

    All EECS programs offer many benefits to businesses and industries. There is the opportunity to influence research and education, and to participate in long-range technical assessments of problems and directions in the field. Contacts with prospective employers are easily established and; affiliates have early access to student resumes, as well as student and faculty publications. Internships in local and national industry provide students with a complementary element to their education.

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    The result of this interaction is greater excellence in both the research and teaching missions of the EECS department, whose vision is to achieve the stature of a world-class department and become the premiere technology hub in the Gulf region. Download the department flyer. Its main goal was to teach and produce engineers for the local industry. During its operation in Sharjah, the department maintained the highest level of excellence in education and was accredited by The Institute of Engineering and Technology IET in the United Kingdom.

    By synergizing new strength and talent, the department has reached new heights and opened avenues for cutting-edge education and research. The ECE Department at Khalifa University is currently home to about 65 highly qualified faculty, with experience from all over the world, many of them enjoying important distinctions, like IEEE Senior or Fellow memberships.

    The enrollment reaches about undergraduate and graduate students, with operation on three campuses. The ECE Department is not just teaching the next generation of industry leaders.

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    I look forward to what the future brings, and we are eager to continue our growth and expansion, as Khalifa University develops as a regional leader in science, research, and technology and contributes to the building of a knowledge-based economy. They also play a crucial role in all technology related manufacturing and marketing activities.

    They help shape, improve, and preserve the world we live in by working at the frontier of technological areas, such as microelectronics, semiconductors,photonics, digital systems, materials, controls, communication systems, signal processing, energy conversion, power distribution, electromagnetism, robotics, multimedia systems, data analytics, microprocessors, networks, chip design, supercomputers and all other aspects of computer organization, design, and programming.

    The Electrical Engineering and Computer Science EECS programs at Khalifa University prepare the students to work in a wide range of fields and choose from a variety of exciting career options. EECS students study various courses related to computer hardware and software, wireless communications, semiconductor devices, circuit design, wireless and wired communication networks, image and video processing, information security, among many others. Moreover, EECS plays a vital role in several other fields such as aerospace, mechanical engineering, biomedical engineering, oil and gas industries, and transportation, to name a few.

    Impact of EECS. The demand for EECS graduates has been consistently growing in the technological world we currently live in. ECEs conceive, design, and build high-profile products and services that help improve and save lives through monitoring devices, surgical robots, artificial limbs, and lasers; help preserve the environment through hybrid electric vehicles, smart grid power distribution systems, and solar or wind power; improve the safety of critical high technology systems through anti-skid braking systems and nuclear power plant controls; enable our daily communications through the Internet, smart phones, tablet computers, and wireless networks; facilitate our entertainment through video games, 3D television and high-fidelity audio products; reduce human toil in manufacturing through computer automation technologies; and enable our financial transactions through secure communications and products.

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    EECS is a dynamic field where new technologies are developed and integrated in our lives almost on a daily basis. Examples of recent new technologies that depend on the EECE field include the development of the smart phones and mobile computing systems such as iPads and tablets, smart homes, and intelligent transportation systems. EECE programs are ideal for people who are passionate for solving challenging problems with the aim of serving humanity. By undertaking an EECE program, you could find yourself equipped to contribute immediately to one of the following technologies:.

    ECE 200: Introduction to Signals, Circuits and Systems

    Electrical Engineering and Computer Science has a significant impact on humans and society, through Admission Requirements. Financial Aid and Scholarships Career options EECS graduates are well prepared to fill a variety of business, industry, services, academia, and government positions.

    Women in ECE. Many of the top international scientists within the EECS field are women. Pioneering female electrical engineers include:.

    Electric Power Engineering - School of Electrical Engineering and Computer Science

    Student Activities Students in the EECS department are encouraged to participate in curricular, co-curricular and social activities. The department has a well-established program student centric events, which are held regularly. The organization currently has around student chapters and several thousand members around the world.

    Student Competitions Student competitions present an excellent opportunity for EECS students to get engaged in real life projects where they learn how to design, implement and present complete systems that have significant relevance to the broader EECS community. Some of the competitions our students participate in include:. Apply Now. Department of Electrical Engineering and Computer Science. About Student Programs Research People. Message from the Chair.

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    What Does an Electrical Engineer Do?

    Employment opportunities. Contact us. What is EECS? These digital systems are everywhere, from your dishwasher and wristwatch to the Mars rovers, and everything in between. Computer vision experts teach computers how to recognize faces, while image processing people can de-blur images, extract features, and even make art. Radio- and microwaves can also be used for sensing. Photonics also includes the field of display technology from LEDs to liquid crystals to holograms. Electrical engineers are working to create better solar cells and windmills, to harvest energy from tides and many other non-polluting sources.

    Financial Aid and Scholarships. EECS graduates are well prepared to fill a variety of business, industry, services, academia, and government positions. The career options relevant to EECS graduates include but are not limited to: Electric power generation and distribution companies. Oil and Gas companies.

    Consumer electronics companies. Electrical equipment manufacturing companies. Test and measurement companies. Automotive and aerospace companies. Hospitals and medical devices companies. Airlines, airports, and transportation companies. Ports and marine engineering companies. Standardization and regulatory authorities. Army, Police, and Civil Security Organizations. Telecommunications companies. Media and broadcasting companies.

    Networking companies.

    While working in various EECS career tracks, EECS graduates will be involved in the design, development, evaluation, and integration of: Computers, hardware, and software.