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electrical engineering cuny

If you’re reading about electrical engineering cuny for the first time, it may seem overwhelming to those without previous knowledge, but you might find it fascinating. 

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Learn more about electrical engineering programs, best cuny for electrical engineering, cuny colleges that have electrical engineering, and ccny electrical engineering requirements. You’ll also find more resources related to city college electrical engineering requirements on collegelearners.

Electrical engineering is a diverse discipline encompassing some of the smallest man-made objects, transistors for computer chips, as well as communication systems that span the earth and reach out into intergalactic space. The invention of the transistor 50 years ago touched off a technological revolution that continues unabated today, including the development of lasers, fiber optics, microcomputers, satellite communications, control systems, and increasingly sophisticated signal processing algorithms.

The faculty of the Grove School’s Department enhance their teaching activities with a number of active research programs in such areas as digital signal processing, computer engineering, optical and telecommunications, controls, remote sensing and photonics, and advanced students participate in these research efforts.

Students pursue professional engineering degrees at the undergraduate, masters and doctoral levels.

CONTACT INFORMATION

Roger Dorsinville
Chair

Steinman Hall
Room 602
160 Convent Avenue
New York, NY  10031

General Information

The program of course offerings at the master’s level fill three vital current needs:

  1. to provide qualified graduates of accredited undergraduate engineering and computer science programs with an opportunity to continue their professional training at an advanced level;
  2. to allow engineers and computer scientists currently employed in industry to enhance their professional training by bringing to them the latest developments in theory, and their applications to industrial practice;
  3. to provide graduate students working toward the doctorate and a career in research with a firm grounding in the theoretical foundations necessary for such work.

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) 

Admissions Requirements

  • Bachelor’s degree from an accredited institution of higher education with a ‘B’ average in the major field.
  • Official transcripts from all post-secondary institutions attended
  • Two letters of recommendation
  • Resume/CV
  • A personal statement that discusses the rationale for pursuing the Master’s degree in Electrical Engineering
  • International students must have a TOEFL score of 533 (PBT), 73 (IBT) or 6 (IELTS)

Applicants whose scholastic record is considered inconclusive may be required to take undergraduate courses in their fields of specialty, without credit, as conditions for admission to the program.

The deadlines can be found in the CCNY Graduate Admissions page. Applications are accepted for both the fall and spring semesters.

Applications are submitted online.

Degree Requirements

Professional Master’s Degree 

Engineering Core Courses12                     

 Four courses from one of the following concentrations (all courses are three credits): A. Computer EngineeringEE G3300: Advanced Mobile RoboticsEE I2200: Image ProcessingEE I2300: Digital Computers IEE I2400: Digital Computers IIEE I2700: Parallel Computer ArchitectureEE I4700: Introduction to Neural NetworksEE I5500: Introduction to RoboticsEE I5600: Advanced Topics in Mobile RoboticsEE I5700: Digital Integrated CircuitsEE I6000: Computer Communications SystemsEE I6100: Integrated Circuits: Design and Fabrication IEE I6400: Computer-Aided Digital VLSI DesignEE I6600: Communications Protocol EngineeringEE I7000: Local Area NetworksEE I9400: High Speed Networks  B. Systems EngineeringEE G3301: Power SystemsEE F5600: Elements of Control TheoryEE I0100: Probability and Stochastic ProcessesEE I0500: Theory of Linear SystemsEE I1600: Digital Signal Processing AlgorithmsEE I2200: Image ProcessingEE I4100: Introduction to Modern Control TheoryEE I4500: Direct Energy ConversionEE I4700: Introduction to Neural NetworksEE I5300: Digital Signal Processing  C. Telecommunications EngineeringEE I0100: Probability and Stochastic ProcessesEE I5100: Communication ElectronicsEE I5200: Fiber Optic Communications IEE I6000: Computer Communication SystemsEE I6300: Wireless CommunicationEE I6600: Communications Protocol EngineeringEE I6700: IP RoutingEE I6800: Telecommunication Network Element EngineeringEE I7000: Local Area NetworksEE I7100: Statistical Communication TheoryEE I7300: Digital CommunicationEE I7400: Data CommunicationsEE I7500: Advanced Wireless NetworksEE I8300: Fiber Optic Communications IIEE I9400: High Speed Networks  D. Photonics EngineeringEE G3302: Electrodynamics 2EE G6800: Introduction to Remote SensingEE G6902: Introduction to Earth SurveillanceEE G6903: Topics in Remote SensingEE I0300: ElectrodynamicsEE I4500: Direct Energy ConversionEE I5200: Fiber Optic Communications IEE I5400: Physical Electronics IEE I5800: Introduction to LasersEE I6200: Principles of Photonics EngineeringEE I8200: Electro-OpticsEE I8300: Fiber Optic Communications IIEE I8500: Optical Signal Processing  E. Electronics/CommunicationEE I0100: Probability and Stochastic ProcessesEE I3200: Analog Integrated CircuitsEE I3600: MOS Devices and CircuitsEE I5100: Communication ElectronicsEE I5200: Fiber Optic Communications IEE I5400: Physical Electronics IEE I5700: Digital Integrated CircuitsEE I6100: Integrated Circuits: Design and Fabrication IEE I6300: Wireless CommunicationsEE I6400: Computer-Aided Digital VLSI DesignEE I7100: Statistical CommunicationEE I8300: Fiber Optic Communications II 

Engineering Management Courses3                          

 One course from the following:ENGR H3800: Management Concepts for EngineersENGR H7600: Engineering Business and LawENGR H8000: Decision and Planning Techniques for Engineering ManagementENGR H8500: Project ManagementENGR 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 coursethat 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 credits30     

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 areas A, B, C, D, or E above:12                                                                 
At least two of the following courses:6

Electrical Engineering:EE I0100: Probability and Stochastic ProcessesEE I0500: Theory of Linear SystemsEngineering:ENGR I0600: Applied AlgebraENGR I1100: Engineering AnalysisENGR 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 Courses6-12Additional Graduate Electrical Engineering courses (from EE I0000, and J0000 sequence) exceptEngineering 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 credits30     

ATTENTION:

As a key component of New York City’s plan to develop a pipeline of quality tech talent for local employers, City College is joining with the New York City Economic Development Corporation (NYCEDC) to build a Cybersecurity Master’s Degree Program in collaboration with private sector and government partners.  This program is part of the broader Cyber NYC initiative, a public-private partnership created to establish New York City as the global leader in cybersecurity.  At City College, the goal is to develop an industry-informed curriculum that will provide students with the practical skills required for professional success, and to integrate classroom learning with internships and other industry-supported events such as Cyberwar Week, hackathons, and speaking/networking events.  As part of the curricular development, private sector partners will collaborate with City College faculty to build elective courses for the Cybersecurity Master’s Program that address current needs in the field and provide key job skills.~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Effective Spring 2016, the following changes were made to graduate course EE G7100 – Wireless Multimedia Networks:

  1. Course number is now EE I7500.
  2. Course name is now Advanced Wireless Networks.
  3. Course content will include the state of the art technologies today in wireless networks. 
  4. No prerequisites needed to take the course, however, familiarity with certain background information such as wireless communications and computer networks is highly desirable.
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