Howard A. Blair, Tomislav Bujanovic, Ilyas Cicekli, Nihan Cicekli,Stephen J. Chapin, Biao Chen, C.Y. Roger Chen, Shiu-Kai Chin, Jun Hwan (Brandon) Choi, Wenliang (Kevin) Du, Sara Eftekharnejad, Ehat Ercanli, Makan Fardad, James W. Fawcett, Prasanta Ghosh, Jennifer Graham, Mustafa Cenk Gursoy, Can Isik, Mina Jung, Mehmet Kaya, Andrew Chung-Yeung Lee, Jay Kyoon Lee, Duane L. Marcy, Patrick McSweeney, WonKyung Park McSweeney, Chilukuri K. Mohan, Jae C. Oh, Susan Older, Vir Phoha, Qinru Qiu, James S. Royer, Tapan K. Sarkar, Q. Wang Song, Sucheta Soundarajan, Jian Tang, Yuzhe (Richard) Tang, William C. Tetley, Pramod K. Varshney, Senem Velipasalar, Li Wang, Yanzhi Wang,Edmund Yu, Reza Zafarani
The mission of the electrical engineering program is to promote learning in electrical engineering through integrated activities in teaching, research, scholarship, creative accomplishments, and service.
The educational objective of the bachelor of science in electrical engineering (BSEE) program in the Department of EECS at Syracuse University is to prepare well-rounded graduates that are ready for work and ready for change.
- Well-rounded graduates of the BSEE program are known by their professional competence, innovative thinking, ability to work individually and in diverse teams, leadership abilities, communication skills, and integrity.
- Graduates of the BSEE program who are ready for work are engaged in applying the knowledge acquired in their major, combined with their problem solving abilities, to produce feasible solutions to problems, in a timely manner, which are deemed important in industry, government, or academia.
- Graduates of the BSEE program who are ready for change exhibit the intellectual flexibility necessary to solve new problems in innovative ways by integrating multiple viewpoints from several disciplines in search of the best possible solutions, or applying their knowledge to different professional disciplines.
Electrical engineering is based on scientific principles governing the motion of charged particles through conductors, semiconductors, or even a vacuum. These phenomena can be harnessed in a variety of applications such as in the treatment of disease, optical, satellite, and computer communications, power transmission, control of robots, radio and television broadcasting, and development of microelectronics for computers and analog circuits.
This program is accredited by the Engineering Accreditation Commission of ABET, http://www.abet.org.
Engineering design is taught in each of the four years of the electrical engineering program. Beginning with ECS 101 in the first year, students are required to formulate solutions to a variety of open-ended laboratory projects. As the students progress through their sophomore and junior years, the projects increase in complexity requiring additional creativity and knowledge. Finally, in the senior year the students are required to complete a major design project that builds upon their mastery of the fundamental concepts of mathematics, basic sciences, the humanities and social sciences, engineering topics, and communication skills.
In addition to successfully completing the requirements for the bachelor of science in electrical engineering, graduates from this program must also achieve the following student outcomes:
(a) an ability to apply knowledge of mathematics and science.
(b) an ability to design and conduct experiments, analyze and interpret data.
(c) an ability to design systems to meet specifications.
(d) an ability to function independently and in teams.
(e) an ability to identify, formulate, and solve engineering and scientific problems.
(f) an understanding of professional, ethical, and safety considerations.
(g) an ability to communicate effectively, both orally and in writing.
(h) an understanding of the role of science and engineering in society.
(i) a recognition of the necessity of lifelong learning.
(j) an understanding of contemporary issues through a broad liberal arts education.
(k) an ability to use the modern tools necessary for professional practice.
(l) an ability to think critically as evidenced by skills in interpretation, analysis, evaluation, and inference.
The electrical engineering program has four fundamental components: mathematics and sciences, engineering, social sciences and humanities, and general education. Within each component, a number of courses have been set aside as electives in order to allow students, with the guidance of their advisors, to customize their education according to personal and career objectives. A summary of required and elective credits within each component follows:
Mathematics and Science
30 required, 3 elective, 33 total credits;
52 required, 12 elective, 64 total credits;
Social Science and Humanities
3 required, 9 elective, 12 total credits;
12 required, 6 elective, 18 total credits;
5 elective, 5 total credits;
84 required, 48 elective, 132 total credits.
Tracks (Technical Electives)
Tracks are intended to provide a cohesive set of technical electives for electrical engineering students. A track usually consists of a group of four courses (12 credits). In the Department of Electrical Engineering and Computer Science, there are three tracks in electrical engineering.
And two of the following:
And two of the following:
And two of the following:
*Students who choose to complete a technical ECS minor may replace these courses (ELE 346 , ELE 325 ) with technical electives.
In order to maximize the flexibility of the Electrical Engineering curriculum while maintaining its structure, electives have been divided into the following categories:
Tracks of specialization (listed below) and minors are (typically) used to regulate technical electives. Students must take 36 required course credits, and 18 technical elective credits.
Among the technical electives, each student must choose at least two from ELE 312 - Control Systems for MAE , ELE 352 - Digital Signal Processing , and ELE 325 - Electromagnetics II .
Each student must satisfy the requirements of a Track by taking at least one of the sets of technical electives listed below:
2. Electromagnetics Track:
Mathematics and Sciences Elective
The 3-credit elective may be fulfilled by any mathematics course with a calculus prerequisite, any physics course with a calculus-based physics prerequisite, or any college-level course in other science departments. By taking an appropriate math course, EE students can use this elective to complete a minor in mathematics.
Social Sciences and Humanities Electives
This 9-credit requirement may be fulfilled by any combination of courses listed in the social sciences division or humanities division of the College of Arts and Sciences. A glossary of course designations with such contents can be found in the Humanities Division and the Social Sciences Division of the College of Arts and Sciences. Courses outside of this scope require prior approval from the academic advisors and Program Director.
General Education Electives
This 6-credit requirement may be fulfilled by any combination of courses that do not have technical engineering, computer science, mathematics and natural science content. These courses, either by themselves or in combination with social sciences and humanities electives and free electives, present a very attractive opportunity to complete one of the non-technical minors offered in the University.
This 5-credit requirement may be fulfilled by any combination of college-level courses, for example, to help fulfill the requirements of a technical or a nontechnical minor.
First Year, Fall Semester (17)
First Year, Spring Semester (17)
Second Year, Fall Semester (16)
Second Year, Spring Semester (16)
Third Year, Fall Semester (18)
Third Year, Spring Semester (17)
Select two of the following three courses:
Fourth Year, Fall Semester (15)
Fourth Year, Spring Semester (16)
The electrical engineering curriculum is flexible enough to allow a student to complete up to three minors. Today’s engineers work in an environment where they are expected to know not only their specialty areas, but also a collection of other subject areas-from computers to finance. The EE curriculum responds to this need by providing students with a strong basis in the fundamentals of electrical engineering, coupled with an opportunity to broaden the scope of their education. An electrical engineering student may complete one or all of the following types of minors within the normal limits of the curriculum.
Engineering and computer science minor
A student who wishes to complete a technical minor offered by the college has up to 26 credits of electives distributed from the second year through the fourth year. Twelve of those credits are labeled as technical electives in the following curriculum. Nine of them are credits from the three courses marked by an asterisk, ELE 346 , ELE 325 , and ELE 312 , which are not required for students who choose to complete an ECS technical minor. The remaining 5 credits are from free electives.
A student who would like to complete a non-technical minor has 9 credits of social sciences and humanities electives and 5 credits of free electives in addition to 9 credits of general education electives, which can be used toward any one of more than 70 minors offered at Syracuse University.
Minor in mathematics
Electrical engineering curriculum requires students to take 18 credits of courses from the mathematics department. With the 3-credit mathematics and sciences elective course also taken appropriately from that department, a minor in mathematics can be earned.