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Electrical Engineering

Master's Program

 Professor Barry Gross, Master's Program Advisor • Office: Steinman 421 • Tel: 212-650-5325

General Information

The City College offers the following Master’s degrees in Electrical Engineering:

M.E. (E.E.) (Professional Master’s Degree)

M.S. (Engineering) (For students preparing for the Ph.D. program; Degree is also awarded to students who do not have a bachelor’s degree in engineering)

 

Degree Requirements

Professional Master’s Degree

Engineering Core Courses

12

Four courses from one of the following concentrations (all courses are three credits):

 

A. Computer Engineering

EE G3300: Advanced Mobile Robotics

EE I2200: Image Processing

EE I2300: Digital Computers I

EE I2400: Digital Computers II

EE I2700: Parallel Computer Architecture

EE I4700: Introduction to Neural Networks

EE I5500: Introduction to Robotics

EE I5600: Advanced Topics in Mobile Robotics

EE I5700: Digital Integrated Circuits

EE I6000: Computer Communications Systems

EE I6100: Integrated Circuits: Design and Fabrication I

EE I6400: Computer-Aided Digital VLSI Design

EE I6600: Communications Protocol Engineering

EE I7000: Local Area Networks

EE I9400: High Speed Networks

 

B. Systems Engineering

EE G3301: Power Systems

EE F5600: Elements of Control Theory

EE G3400: Analysis of Random Systems

EE I0100: Probability and Stochastic Processes

EE I0400: Signal Theory

EE I0500: Theory of Linear Systems

EE I1600: Digital Signal Processing Algorithms

EE I2200: Image Processing

EE I4100: Introduction to Modern Control Theory

EE I4500: Direct Energy Conversion

EE I4700: Introduction to Neural Networks

EE I5300: Digital Signal Processing

 

C. Telecommunications Engineering

EE I0100: Probability and Stochastic Processes

EE I5100: Communication Electronics

EE I5200: Fiber Optic Communications I

EE I6000: Computer Communication Systems

EE I6300: Wireless Communication

EE I6600: Communications Protocol Engineering

EE I6700: IP Routing

EE I6800: Telecommunication Network Element Engineering

EE I7000: Local Area Networks

EE I7100: Statistical Communication Theory

EE I7300: Digital Communication

EE I7400: Data Communications

EE I7500: Wireless Multimedia Networks

EE I8300: Fiber Optic Communications II

EE I9400: High Speed Networks

 

D. Photonics Engineering

EE G3302: Electrodynamics 2

EE G6800: Introduction to Remote Sensing

EE G6902: Introduction to Earth Surveillance

EE G6903: Topics in Remote Sensing

EE I0300: Electrodynamics

EE I4500: Direct Energy Conversion

EE I5200: Fiber Optic Communications I

EE I5400: Physical Electronics I

EE I5800: Introduction to Lasers

EE I6200: Principles of Photonics Engineering

EE I8200: Electro-Optics

EE I8300: Fiber Optic Communications II

EE I8500: Optical Signal Processing

 

E. Electronics/Communication

EE I0100: Probability and Stochastic Processes

EE I3200: Analog Integrated Circuits

EE I3600: MOS Devices and Circuits

EE I5100: Communication Electronics

EE I5200: Fiber Optic Communications I

EE I5400: Physical Electronics I

EE I5700: Digital Integrated Circuits

EE I6100: Integrated Circuits: Design and Fabrication I

EE I6300: Wireless Communications

EE I6400: Computer-Aided Digital VLSI Design

EE I7100: Statistical Communication

EE I8300: Fiber Optic Communications II

 

Engineering Management Courses

3

One course from the following:

ENGR H3800: Management Concepts for Engineers

ENGR H7600: Engineering Business and Law

ENGR H8000: Decision and Planning Techniques for Engineering Management

ENGR H8500: Project Management

ENGR H9300: Economics and Investment Analysis of Engineering Projects

Technical Electives:

9-15

Take courses from any of the above concentration areas, or any I0000 and J0000 course that may be offered except Engineering Management courses.

Report/Project/Thesis:

0-6

At least one of the following courses:

EE I0000: Seminar (1 cr.)

EE I9600: Master’s Report (0 cr.)

EE I9700: Master’s Project (3 cr.)

EE I9900: Master’s Thesis (6 cr.)

Total credits

30

Note: A minimum GPA of 3.0 is required for graduation.

 

M.S. (Engineering) Degree

At least four courses from one of the specific concentration areasA, B, C, D, or E above:

12

At least two of the following courses:

6

Electrical Engineering:

EE I0100: Probability and Stochastic Processes

EE I0500: Theory of Linear Systems

Engineering:

ENGR I0600: Applied Algebra

ENGR I1100: Engineering Analysis

ENGR I1200: Functions of Complex Variables

At least one of the following courses:

0-6

Electrical Engineering:

EE I0000: Seminar (1 cr.)

EE I9600: Master’s Report (0 cr.)

EE I9700: Master’s Project (3 cr.)

EE I9900: Master’s Thesis (6 cr.)

Elective Courses

6-12

Additional Graduate Electrical Engineering courses (from EE I0000, and J0000 sequence) except Engineering Management Courses. Prior approval of master’s advisor is needed for non-EE electives.

Note: A minimum GPA of 3.0 is required for graduation.

Total credits

30