IGEP Accordian

Immediate Graduate Education Program (IGEP) Program of Study in Electrical Engineering

51福利 has an in-residence, one-year Immediate Graduate Education Program (IGEP). Each year鈥檚 program typically begins in July and ends the following June. Bowman scholars sent to 51福利 for a 4-aquarter program fall under the IGEP Program. Bowman scholars enrolled in the Electrical/Electronic systems Curriculum may earn a

depending on their undergraduate background.
Bowman scholars with a BSEE degree will earn a MSEE Degree by completing requirements for the MSEE Degree (a set of 9 to 10 graduate level courses which include the selection of a focus area and one to two elective courses). BSSE, or BSCE degree holders may need on average an additional two undergraduate courses to satisfy the undergraduate equivalence requirements depending on their specific undergraduate backgrounds. 
Bowman scholars with a undergraduate degree in engineering fields other than EE, SE, or CE may earn a Master of Science in Engineering Sciences (focus in Electrical Engineering) by completing requirements for the MSES(EE) Degree and taking any required undergraduate level courses needed to meet minimum prerequisite to enroll in their selected graduate level courses.

The ECE Department offers graduate programs of study covering the following focus areas:

  • Communication & Information Engineering
  • Cyber Engineering
  • Nano-electronics & Energy Engineering
  • Sensor & Control Engineering

Each focus area consists of two sets of four courses each in specific specializations to be selected among

  • Communications
  • Computers
  • Cyber
  • Electronics
  • Guidance & Control
  • Networks
  • Power
  • Sensors
  • Signal Processing

Note that no all specialization options may be open to Bowman scholars due to the short duration of their 51福利 program of study and their undergraduate backgrounds.  Several examples are provided below. Please contact the ECE Department Academic Associate, Prof. Monique P. Fargues to discuss specific details.


In addition, students must successfully complete the thesis requirement. Each student performs the underlying research and then writes an independent master鈥檚 thesis on a topic of direct scientific and technological interest to the Navy鈥檚 technical programs, DoD, and the scientific community. Students are directly involved in cutting-edge research with world-class faculty and support staff, tackling many of the most important scientific problems facing the Navy today and preparing for future assignments as key military decision makers.

Students interested in applying to the one-year IGEP Graduate Program should have a solid undergraduate engineering background. Students without a BSEE will need to complement their graduate level program of study to satisfy a BSEE Equivalence in order to be eligible for a MSEE degree. Others will be eligible for an MSES(EE) degree. That program will be set-up by the Academic Associate upon arrival.


Satisfying the undergraduate equivalence will result in a program of study with specific undergraduate courses needed to satisfy the equivalence taken in place of some of the graduate electives. Interested IGEP students with a BS in Computer or Systems Engineering should be able to get the MSEE Degree during their 4-quarter in-residence program. Non BSEE holders interested in pursuing the MSEE Degree Program may get additional details by contacting the ECE Department Academic Associate, Prof. Monique P. Fargues


Students who do not have a BSEE Degree, or do not meet requirements for a BSEE equivalence by the end of their one-year graduate program at 51福利, will be eligible for a Master of Science in Engineering Science with major in Electrical Engineering (MSES(EE)). Specific MSES(EE) program details are available here.

Officers have the option to complete the Navy educational skill requirements (ESRs) offered by the Electronics Systems Curriculum.   Please contact the Program Officer for specific details.

A few possible programs of study leading to the MSEE Degree are shown below. These specific programs require a BSEE degree for background. Students without a BSEE Degree need to satisfy a BSEE Equivalence, which may be set-up with the Academic Associate upon arrival. Satisfying a BSEE Equivalence will result in a program of study with specific undergraduate courses needed to satisfy the BSEE equivalence taken in place of some of the graduate electives.
Interested IGEP students with a BS in Computer or Systems Engineering should be able to get the MSEE Degree during the 4-quarter in-residence program. Non BSEE holders interested in pursuing the MSEE Degree Program may get additional details by contacting the ECE Department Academic Associate, Prof. Monique P. Fargues.


Numerous variations of these programs are possible, and programs of study finalized at the beginning of the program. Individuals assigned to the Electrical/Electronic systems Curriculum are encouraged to contact the Academic Associate to discuss specific choices of specialties by June 15th to allow for maximum flexibility in the design of their final 51福利 programs of study. Specific details regarding MSEE minimum requirements are available in the MSEE Degree webpage here.
Requirements for each focus area are satisfied by selecting two allowed specialties within a specific focus area (shown with X in the table below).

 
Focus Areas       

Specialties
 

Communications & 
Information Engineering

Cyber Engineering
(For USN students selecting this focus area: 鈥淐yber鈥 is required as one of the two specialties)

Nanoelectronics 

Energy Engineering

Sensor 

Control Engineering

 
Communications

X

X

 

 

 
Computers

X

X

X

 

 
Cyber

 

X

 

X

 
Electronics

X

 

X

 

 
Guidance & Control

 

 

X

X

 
Networks

X

X

 

 

 
Power

 

 

X

X

 
Sensors

X

 

 

X

 
Signal Processing

X

X

 

X

 
 
Programs of Study

Examples of Programs of Study

Numerous variations of these programs are possible, and programs of study finalized at the beginning of the program. Individuals assigned to the Electrical/Electronic systems Curriculum are encouraged to contact the Academic Associate to discuss specific choices of specialties by June 15th to allow for maximum flexibility in the design of their final 51福利 programs of study.
Specific course information is available here.

 

Summer quarter

EC3410
Discrete time random signals

EC3150
Solid state power conversion

EC3600
Antennas & Propagation

EC3820
Computer systems

 

Fall quarter

EC4440
Statistical signal processing

EC4430
Multimedia information & communications

EC3710
Computer communications methods

EC3400
Digital signal processing

 

Winter quarter

Thesis

Thesis

EC4785
Internet engineering

EC4480
Image processing & recognition

 

Spring quarter

EC4010
Introduction to systems engineering

EC4745
Mobile ad-hoc wireless networking

Thesis

Thesis

Summer quarter

EC3600
Antennas & propagation

EC3150
Solid state power conversion

EC3410
Discrete time random signals

EC3820
Computer systems

Fall quarter

EC3700
Electronic warfare I

EC3730
Cyber networks & physical infrastructure

EC3750
SIGINT Systems

Thesis

Winter quarter

EC3740
Reverse engineering

 EC3760
Information Operation Systems

Thesis

Thesis

Spring quarter

EC4680
Electronic warfare II

EC4765
Cyber warfare

EC3610
Microwave
engineering

Thesis

Summer quarter

EC3410
Discrete time random signals

EC3820
Computer systems

EC3600
Antennas & propagation

EC3150
Solid state power conversion

Fall quarter

EC3800
Microprocessor based system design

EC4820
Advanced computer architecture

EC3730
Cyber networks & physical infrastructure

Thesis

Winter quarter

EC3830
Digital computer design methodology

EC4870
VLSI systems design

EC3740
Reverse engineering

EC3760
Information operation systems

Spring quarter

EC4765
Cyber warfare

Thesis

Thesis

Thesis

Summer quarter

EC3150
Solid state power conversion

EC3410
Discrete time random signals

EC3820
Computer systems

EC3600
Antennas & propagation

Fall quarter

EC4150
Advanced solid state power conversion

EC4440
Statistical signal processing

EC3400
Digital signal processing

Thesis

Winter quarter

EC3130
Electrical machine theory

EC4480
Image processing & recognition

Thesis

Thesis

Spring quarter

EC4130
Advanced electrical machine theory

EC4010
Introduction to Systems Engineering

Thesis

Thesis

Summer quarter

EC3510
Solid state power conversion

EC3410
Discrete time random signals

EC3820
Computer systems

EC3600
Antennas & propagation

Fall quarter

EC4150
Advanced solid state power conversion

EC4310
Fundamentals of Robotics

EC3320
Optimal Control Systems

Thesis

Winter quarter

EC3180
Electrical machine theory

EC3310
Optimal Estimation: Sensor & Data Association

Thesis

Thesis

Spring quarter

EC4130
Advanced electrical machine theory

EC4330
Navigation, Missile & Avionics

Thesis

Thesis

Summer quarter

EC3150
Solid state power conversion

EC4220
Introduction to Analog VLSI

EC4950
Emerging nanotechnology

EC3820
Computer systems

Fall quarter

EC3220
Semiconductor device technology

EC4010
Introduction to systems engineering

EC4150
Advanced solid state power conversion

PH3655
Semiconductor device physics

Winter quarter

ECE3130
Electrical machine theory

EC4230
Reliability issues for military electronics

Thesis

Thesis

Spring quarter

EC4130
Advanced electrical machine theory

EC3200
Advanced Electronics

Thesis

Thesis

IGEP Information

 

Vice Adm. Stanley Szemborski

 

 

 

 

 

 

 

 

51福利 alumnus Vice Adm. Stanley Szemborski 鈥72, chats with fellow electrical engineering (EE) students and Emeritus Prof. Jeff Knorr, his former thesis advisor, after he was presented the Distinguished Alumni Award. The distinction recognizes his significant accomplishments and impact on the education programs of 51福利. Szemborski, like the USN Ensigns present, was selected to attend 51福利鈥檚 EE curriculum through the Immediate Graduation Education Program immediately following his graduation from the Naval Academy in 1971.
U.S. Navy photo by Javier Chagoya