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  Graduate School-New Brunswick 2012-2014 Programs, Faculty, and Courses Business and Science 137 Electrical and Computer Engineering Concentration  

Electrical and Computer Engineering Concentration

Electrical and computer engineering is offered as a concentration within the professional science master's program described under Business and Science 137. The electrical and computer engineering concentration combines business courses with courses from electrical and computer engineering to give engineers a more industrial perspective. The science courses cover a wide range of areas including computer hardware, software, communication systems, power, and solid state electronics. Students can choose from a number of different areas and these are listed below. There are five subconcentrations in the master of business and science (M.B.S.) concentration for electrical and computer engineering:

1.    Communications Engineering
2.    Computer Engineering
3.    Digital Signal Processing
4.    Solid State Electronics
5.    Systems and Control

Students may specialize in one of the above areas; areas can also be combined. Core courses and electives are listed for those specializations. If a student has taken some of these as an undergraduate or would like to substitute others, please speak to an adviser. Elective courses are also available from the graduate programs in computer science, physics, and in other engineering disciplines.

Core courses and electives are listed below.

Communications Engineering

Students must select five out of the nine required courses and three out of the 16 elective courses.

Required Core Courses (Select five courses)

16:332:541  Stochastic Signals and Systems (3)
16:332:542  Information Theory and Coding (3)
16:332:543  Communication Networks I (3)
16:332:544  Communication Networks II (3)
16:332:545  Digital Communication Systems (3)
16:332:546  Wireless Communications Technologies (3)
16:332:548  Error Control Coding (3)
16:332:549  Detection and Estimation Theory (3)
16:332:559  Advanced Topics in Communications Engineering (3)

Elective Courses (Select three courses)

16:332:501  System Analysis (3)
16:332:505  Control Theory I (3)
16:332:506  Control Theory II (3)
16:332:521  Digital Signals and Filters (3)
16:332:525  Optimum Signal Processing (3)
16:640:501  Theory of Functions of a Real Variable (3)
16:640:503  Theory of Functions of a Complex Variable (3)
16:640:515  Ordinary Differential Equations (3)
16:642:550  Linear Algebra and Applications (3)
16:642:573  Topics in Number Theory I (3)
16:642:574  Topics in Number Theory II (3)
16:642:591  Topics in Probability and Ergodic Theory (3)
16:642:621  Financial Mathematics I (3)
16:642:622  Financial Mathematics II (3)
16:960:580  Basic Probability and Statistics (3)
16:960:582  Introduction to Methods and Theory of Probability (3)

Computer Engineering

Required Core Courses (two courses)

16:332:563  Computer Architecture I (3)
16:332:573  Data Structures and Algorithms (3)

Elective Courses (Select five courses)

16:332:560  Computer Graphics (3)
16:322:561  Machine Vision (3)
16:332:562  Visualization and Advanced Computer Graphics (3)
16:332:564  Computer Architecture II (3)
16:332:566  Parallel and Distributed Computing (3)
16:332:567  Software Engineering I (3)
16:332:568  Software Engineering Web Applications (3)
16:332:569  Database System Engineering (3)
16:332:570  Robust Computer Vision (3)
16:332:571  Virtual Reality Technology (3)
16:332:574  Computer Aided Digital VLSI Design (3)
16:332:576  Testing of ULSI Circuits (3)
16:332:577  Analog and Low-Power Digital VLSI Design (3)
16:332:579  Advanced Topics In Computer Engineering (3)
16:332:542  Information Theory and Coding (3)
16:332:544  Communication Networks II (3)
16:198:515  Programming Languages and Compilers (3)
16:198:519  Operating Systems (3)
Other courses from computer science and from the School of Communication and Information are also acceptable. Please speak to your adviser.

Mathematical Electives (Select one course)

16:332:501  System Analysis (3)
16:198:510  Numerical Analysis (3)
16:198:521  Linear Programming (3)
16:198:522  Network and Combinatorial Optimization Algorithms (3)
16:198:524  Nonlinear Programming Algorithms (3)
16:198:528  Parallel Numerical Computing (3)
16:642:550  Linear Algebra and Applications (3)
16:642:573  Topics in Number Theory I (3)
16:642:587  Selected Topics in Discrete Mathematics (3)
16:642:621  Financial Mathematics I (3)
16:642:622  Financial Mathematics II (3)

Digital Signal Processing

Required Core Courses (Select five courses)

16:332:521  Digital Signals and Filters (3)
16:332:525  Optimum Signal Processing (3)
16:332:527  Digital Speech Processing (3)
16:332:529  Image Coding and Processing (3)
16:332:533  Computation Methods for Signal Recovery (3)
16:332:535  Multidimensional Signal Processing Algorithms (3)
16:332:541  Stochastic Signals and Systems (3)
16:332:561  Machine Vision (3)
16:332:570  Robust Computer Vision (3)

Elective Courses (Select three courses)

16:332:501  System Analysis (3)
16:332:505  Control Theory I (3)
16:332:506  Control Theory II (3)
16:332:565  Neurocomputer Systems Design (3)
16:640:501  Theory of Functions of a Real Variable (3)
16:640:503  Theory of Functions of a Complex Variable (3)
16:642:550  Linear Algebra and Applications (3)
16:642:573  Topics in Number Theory I (3)
16:642:574  Topics in Number Theory II (3)
16:642:621  Financial Mathematics I (3)
16:642:622  Financial Mathematics II (3)

Solid State Electronics

Required Core Courses (five courses)

16:332:580  Electric Waves and Radiation (3)
16:332:581  Introduction to Solid State Electronics (3)
16:332:583  Semiconductor Devices I (3)
16:332:584  Semiconductor Devices II (3)
16:332:587  Transistor Circuit Design (3)

Elective Courses (Select three courses)

16:332:591  Optoelectronics I (3)
16:332:592  Optoelectronics II (3)
16:332:594  Solar Cells (3)
16:150:522  Electron Microscopy (3)
16:642:516  Applied Partial Differential Equations (3)
16:642:527  Methods of Applied Mathematics I (3)
16:642:528  Methods of Applied Mathematics II (3)
16:642:575  Numerical Solutions of Partial Differential Equations (3)
16:635:501  Theory of Solid State Materials (3)
16:750:501  Quantum Mechanics I (3)
16:750:601  Solid State Physics I (3)
16:750:602  Solid State Physics II (3)

Required Core Courses (three courses)

16:332:501  System Analysis (3)
16:332:505  Control Theory I (3)
16:332:506  Control Theory II (3)

For a description of the core courses, please visit http://psm.rutgers.edu.

Concentration Coordinators:

Professor Zoran Gajic
gajic@ece.rutgers.edu

Professor Deborah Silver
silver@jove.rutgers.edu

 
 
For additional information, contact RU-info at 732-445-info (4636) or colonel.henry@rutgers.edu.
Comments and corrections to: Campus Information Services.

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