1. Electronics and Communication engineering is one of the
dynamic branches of engineering. As of today, Electronics and
Communication engineers are expected to be working in all spheres
of modern industry. The goal of this course is to impart best
technological education to the students to match with the modern
industry and also for the higher education. This course will help
the students to bridge the gap between theory and practical aspects
of technology.It is a four years (8 Terms) programme with a lateral
entry facility for first class diploma holder students at 3rd Term.
The course provides a very flexible study structure to the students
to select important elective subjects from multidisciplinary areas
along with the main stream subjects of Electronics and
Communication Engineering. During their final year of course study,
the students have to compulsorily design and develop a project of
their choice. However, the projects have to be of high quality
implementing innovative ideas and their applications in providing
solutions to real world problems. We encourage our students and
facilitate them to take up live projects from industries and
corporate world. It gives them good experience of working on live
projects on one hand and on the other it gives an exposure and
understanding of work culture of outside world A Professional
Training.The course covers a wide range of technologies for the
future growth in the fields like Electronics Devices and Circuits,
Transistors, Digital Electronics, Electromagnetic Field Theory,
Signals and Systems, Antenna Wave Propagation, Microelectronics,
Microwave, Digital Signal Processing, Microprocessor, etc. Emphasis
is laid on some major thrust areas of the future like Digital
Communication, Image Processing, Very Large Scale Integration and
Microcontrollers.
Select and admit undergraduate students, and select graduate
students after they are admitted by the University. Provide
accommodation, meals, common rooms, libraries, sports and social
facilities, and pastoral care for their students. Are responsible
for tutorial teaching for undergraduates.The University Determines
the content of the courses within which college teaching takes
place. Organises lectures, seminars and lab work. Provides a wide
range of resources for teaching and learning in the form of
libraries, laboratories, museums, computing facilities, and so on.
Provides administrative services and centrally managed student
services such as counselling and careers. Admits and supervises
graduate students, and examines theses. Sets and marks
examinations, and awards degrees.The collegiate system is at the
heart of the Universitys success, giving students and academics the
benefits of belonging both to a large, internationally renowned
institution and to a small, interdisciplinary academic community.
It brings together leading academics and students across subjects
and year groups and from different cultures and countries, helping
to foster the intense interdisciplinary approach that inspires much
of the outstanding research achievement of the University and makes
Oxford a leader in so many fields.
The mission of MIT is toadvance knowledgeandeducate studentsin
science, technology, and other areas of scholarship that will best
serve the nation and the world in the twenty-first century. We seek
to develop in each member of theMIT communitythe ability and
passion to workwisely, creatively, and effectivelyfor thebetterment
of humankind.
Iit BombayOverviewThe department of electrical engineering has
been playing a vital role in producing scientists and technologists
of highest caliber ever since it was established in the year 1961.
The department runs three under graduate programmes and 9
post-graduate programmes to cater to the ever challenging needs of
technical excellence in all areas of electrical engineering such as
Integrated electronics and circuits, Tele-communications, Computer
technology, Control & Automation, Power systems & Power
electronics .In addition to the strong undergraduate programs, the
department has been playing a pioneering role in producing world
class postgraduates and research scholars. The infrastructure and
lab facilities are upgraded from time to time and provide adequate
opportunities for students and researchers to learn and innovate.
The department has distinguished faculty, all holding Ph.D. degrees
from renowned institutes in India and abroad. There are two Fellows
of IEEE in the department and many other faculty members are
Fellows of several national and international scientific bodies.
The faculty of the department has been constantly carrying out
research on many cutting edge technologies and regularly publishes
in IEEE and other top international journals. The department also
undertakes many research projects sponsored by both the government
and the industry.Faculty members of the department are recipients
of many distinguished awards such as Shanti Swarup Bhatnagar Prize,
Prof. K. Sreenivasan Memorial Award, Prof. SVC Aiya Memorial Award,
Dr. Vikram Sarabhai Research Award, Ram Lal Wadhwa Award, INAE
Young Engineer Award, Alexander von Humboldt Fellowship and many
others. Many faculty members are Editors of IEEE and other national
and international journals. They are also Fellows of organizations
like IEEE, IETE, INAE, IASc, NASI and INSA. Some of the
distingushed awards are listed below.
STANFORD ENGINEERING'S MISSIONOur mission is to seek solutions
to important global problems and educate leaders who will make the
world a better place by using the power of engineering principles,
techniques and systems. We believe it is essential to educate
engineers who possess not only deep technical excellence, but the
creativity, cultural awareness and entrepreneurial skills that come
from exposure to the liberal arts, business, medicine and other
disciplines that are an integral part of the Stanford
experience.Our key goals are to: Conduct curiosity-driven and
problem-driven research that generates new knowledge and produces
discoveries that provide the foundations for future engineered
systems Deliver world-class, research-based education to students,
and broad-based training to leaders in academia, industry, and
society Drive technology transfer to Silicon Valley and beyond with
deeply and broadly educated people and transformative ideas that
will improve our society and our world.
Engineering at Cambridge is an integrated department comprised
of the best academics, staff and students from around the world.
Not only do we top the academic rankings, but we deliver practical
outcomes for society. I feel a great sense of both excitement and
responsibility in leading this institution given the influence it
has on pivotal issues such as energy, cities, transport, healthcare
and manufacturing. My aim is to do everything I can to allow
everyone here to perform at their best, engage with real issues and
make a difference.It would be easy to get complacent given this
success, but I see a tremendous opportunity to take the Department
to a new level. Engineering in most universities is split into
separate departments; but we are one department. This structural
advantage means we can tackle the really big challenges facing
society. But this strength is tempered by our old and scattered
building stock. Uniting on one site with new purpose-built
facilities and the right support will unlock the full potential of
our brilliant people. This is the change I wish to bring.Electrical
EngineeringElectrical Engineering has long played a critical role
in undergirding innovations that improve the quality of life,
support economic growth, and address societal problems. Its
emergence as a separate field of study in the late 19th century
paralleled, and was responsive to, the large-scale introduction of
telegraphy and electrical lighting. Electrical engineering has
continued to play a pivotal role in power and energy distribution,
communications, and computation, even as the power-carrying
channels have evolved from heavy metal cables to nanowires or
optical fibers; the networks of communications have evolved from
wires to wireless to neurons; and the basic electrical switches
have evolved from vacuum tubes to transistors to carbon nanotubes.
The essential technologies that connect society: mobile phones,
laptops, wireless communications, downloaded videos, light-emitting
diodes, electronic displays, smart power grids, and rapidly
evolving systems for monetary transactions are all evidence of the
impact of innovation in electrical engineering.The undergraduate EE
curriculum emphasizes both depth and breadth within the
sub-disciplines of electrical engineering. All students will
specialize in electronic circuits and devices while being provided
the opportunity explore signals and systems theory, control
systems, robotics, optoelectronic devices, integrated circuits,
energy systems, computer vision, electronic materials, computer
software and hardware, as well as mechanical, biological, and
environmental systems. Through this coursework, students also gain
experience in the engineering design process, the engineering
activity that requires creative synthesis as well as analysis.
The Department's main objectives are to conduct internationally
competitive research, and deliver high quality teaching. The
department conducts research across a wide range of topics, and
targets both fundamental advances and practical applications of
science and technology. The quality and impact of our research are
demonstrated by our many highly cited publications, the personal
recognition of our researchers through awards and honours, and the
commercial adoption of our results and innovations.We see educating
the next generation of engineers as a key role, and our graduates
and post-graduates are highly valued by industry and commerce
around the world. Our undergraduate and master's degrees are
aligned to our research strengths, and we are proud of the depth of
analytical treatment and the specialised optional subjects we offer
within our degree programmes.
http://www.ece.nus.edu.sg/education/undergraduate/ee/
