Contact:

Program Director

Prasanta K. Ghosh, 4-131 Center for Science and Technology, 315-443-4440, Fax: 315-443-2583; pkghosh@syr.edu

Faculty

Thomas Barnard, Howard A. Blair, Tomislav Bujanovic, 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,  Robert Irwin, Can Isik,  Andrew Chung-Yeung Lee, Jay Kyoon Lee, Yingbin Liang, Duane L. Marcy, Kishan G. Mehrotra, Chilukuri K. Mohan, Jae C. Oh, Susan Older, Vir Phoha, Qinru Qiu,  James S. Royer, Jeffrey Saltz, Tapan K. Sarkar, Fred Schlereth, Q. Wang Song, Sucheta Soundarajan, Jian Tang, Yuzhe (Richard) Tang, William C. Tetley, Pramod K. Varshney, Senem Velipasalar, Li Wang, Hong Wang, Yanzhi Wang, Heng Yin, Edmund Yu, Reza Zafarani

Description:

The curriculum is built around current industry innovations and trend; the program pushes engineers to the forefront of their field with an immersive and concentrated educational experience.

Explore scientific principles and applications of electrical engineering such as:

Digital Communication and Circuits
Electromagnetic Fields
Signal Processing and System Design.

Accreditation:

Accredited by Middle States Association of Colleges and Schools.

Admission:

Candidates are required to hold a Bachelor of Science degree and have acquired at least three years of industry experience in one of the following or a related field:

Electrical
Electronics
Communication
Computer
Software engineering

GRE Verbal score of 150 or better (using New GRE Score System); GRE Quantitative score of 155 or better (using New GRE Score System); GRE Analytical (multiple choice) score of 650 or better, or a score of 3.5 or better in the new Analytical Writing; for international students: TOEFL computer-based score of 223 (Internet-based score 85; paper-based score 563) or better; grade point average (GPA) of 3.0/4.0 or better.

Financial Support:

Syracuse University has a variety of financial aid programs to support graduate study, including scholarships, assistantships, and fellowships. These programs are administered within each of the University’s academic departments, so the fastest and easiest way to determine what aid you may be eligible for is to connect with specific school or college staff. Federal Unsubsidized Loans for masters, professional and doctoral students are available for up to $20,500, (see eligibility requirements).

Federal financial aid, including loans, requires that you file the Free Application for Federal Student Aid (FAFSA).

Facilities:

Classes are taught entirely online. Classrooms are equipped with at least two cameras, microphones (for the instructor and students) smart boards and/or tablet monitors and each class session will be webcast live.

Online students have the option to attend the live class session through an online web conferencing platform or view the recording after the class has ended. The web conferencing platform provides interface includes three pods: 1) Camera view of the instructor, 2) Display of the smart board or tablet monitor and 3) Chat tool through which students can pose questions to the instructor and other students. The audio feed will include the instructor and students in the classroom.

Software-based labs are completed using various applications that are downloaded or accessed remotely by the student. These labs are supported by live and recorded explanations and demonstrations by faculty and teaching assistants. In some classes, live support sessions are held online to assist students while they are completing the labs in their locations.

Labs that require tactile manipulation of instruments can be completed locally if the student has access to appropriate equipment (oscilloscope, function generator, multi-meter, etc.). Students record their experiment results and report back to the instructor. In some cases student may be asked to capture their work on video or still images.

Knowledge Outcomes:

• Knowledge of the fundamentals of mathematics and science.
• Knowledge of the engineering principles.
• Focus on a specialization field in Electrical Engineering.
• Knowledge of current events and contemporary societal issues.
• Knowledge of the state-of-the-art Information Technologies.
• The broad education necessary to understand the impact of engineering solutions in a global, economic, environmental, and societal context (ABETh).

Skill Outcomes:

• Ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability.
• Ability to identify, formulate, and solve Electrical Engineering problems.
• Ability to function in multidisciplinary teams.
• Capability to use state-of-art engineering/computer tools necessary for engineering practice.
• Skill to find and use available technical information.
• Ability to communicate effectively orally.
• Ability to communicate effectively in written reports.
• Skills to organize and synthesize information.
• Ability to design and conduct experiments, tests, or simulations, as well as analyze and interpret data to validate his/her assumptions and hypotheses.
• Ability to evaluate current electrical engineering techniques.

Attitude Outcomes:

• Recognition of the need and ability to engage in lifelong learning.
• Understanding of their professional and ethical responsibilities.
• An understanding of responsibility and accountability.
• A desire to be a flexible and adaptable team player.
• Recognition of the significance to be a self-grower.
• Showing mental robustness and accepting increasing challenges.