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Master of Science in Electrical and Computer

Engineering

Department of Electrical and Computer Engineering

The Master of Science program in electrical and computer engineering (ECE) is designed for students who are interested in acquiring advanced knowledge and skills in the traditional and emerging areas of ECE. The graduate curricula includes strong offerings in advanced control engineering, automotive

mechatronic systems, computer engineering, digital and wireless communication, digital signal and image processing, electromagnetics and antenna theory,

electronics and microelectronics system design, microprocessor-based system design, and robotic systems.

Admission requirements

1. B.S. in electrical engineering (EE) or computer engineering (CE).

Applicants from other disciplines will be considered after successfully completing appropriate prerequisite courses.

2. Grade-point average of 3.00 or better

3. Official GRE scores are required of applicants having the qualifying degree from an institution not regionally accredited

4. Official TOEFL scores are required of graduates of programs taught in a language other than English.

Degree requirements

In addition to the general degree requirements, a student must fulfill the following program requirements to be awarded the Master of Science in electrical and computer engineering:

Total credits required for degree (32 credits) credits of core and theory courses 8 credits of depth and breadth area

courses

16 credits of elective courses 8

To satisfy the depth requirement, students must take either a master’s thesis or two courses from one of the options below. Also, to satisfy the breadth

requirement, students must take one course from each of two other options. An additional 8 credits of electives should be chosen from any of the ECE or SYS courses listed below.

Core and Theory courses

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APM 541

Mathematical Analysis for Engineers I

4

APM 542

Mathematical Analysis for Engineers II

4

APM 563

Applied Mathematics:

Discrete Methods I

4

MTH 555

Complex Analysis 4

SYS 520

Signal and Linear Systems Analysis

4

ECE 515

Foundations of Electrical and Computer Engineering

4

ECE 533

Random Signals and Processes

4

Options

1. Communications Option ECE

527

High-Frequency Electronics 4 ECE

533

Random Signals and Processes

4 ECE

534

Principles of Digital Communications

4 ECE

550

Satellite-based Positioning Systems

4 ECE

567

Computer Networks 4 ECE

632

Wireless Communications 4 ECE

633

Signal Detection and Estimation Theory

4 ECE

635

Modulation and Coding 4 CSE

547

Computer Communications 4

With approval:

ECE 594, 595, 690, 691, 795

2. Computer Engineering Option

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ECE 570*

Microprocessor-based Systems Design

4 ECE

585

VLSI Circuits and System Design of Digital Chips

4 CSE

564*

Computer Organization and Architecture

4 CSE

576

Embedded System Design Using FPGAs

4 CSE

666

Real-time Computer Systems

4 CSE

671

DSP in Embedded Systems 4 CSE

678

Advanced Embedded Systems

4

With approval:

ECE 594, 595, 690, 691, 795 3. Controls Option

ECE 525

Instrumentation and Measurements

4 ECE

572*

Microcomputer-based Control Systems

4 ECE

575*

Automotive Mechatronics I 4 ECE

675

Automotive Mechatronics II 4 SYS

520

Signal and Linear Systems Analysis

4 SYS

630

Optimal Control Theory 4 SYS

631

Estimation and Control Theory

4 SYS

632

Analysis of Nonlinear Control Systems

4 SYS

635

Adaptive Control Systems 4 SYS

645

Intelligent Control Systems 4 SYS Digital Control Systems 4

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674

With approval:

ECE 594, 595, 690, 691, 795

4. Electromagnetics Option ECE

527

High-Frequency Electronics 4 ECE

545*

Electromagnetic Engineering I

4

ECE 546

Introduction to Electromagnetic Compatibility

4

ECE 547

Antennas 4

ECE 550

Satellite-based Positioning Systems

4

With approval:

ECE 594, 595, 690, 691, 795

5. Electronics Option ECE

525

Instrumentation and Measurements

4 ECE

527

High-Frequency Electronics 4 ECE

581

Integrated Circuits and Devices

4 ECE

585*

VLSI Circuits and System Design of Digital Chips

4 ECE

587*

Integrated Electronics 4 ECE

625

Applications of Analog Integrated Circuits

4 ECE

682

Field-Effect Devices 4 ECE

683

Advanced VLSI

Analog/Digital Systems Design

4

With approval:

ECE 594, 595, 690, 691, 795

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6. Energy Option ECE

525

Instrumentation and Measurements

4 SYS

520

Signal and Linear Systems Analysis

4 SYS

557

Energy Conservation Systems

4 SYS

558*

Electrical Energy Systems 4 SYS

721

Large-Scale Dynamic Systems

4

With approval:

ECE 594, 595, 690, 691, 795

7. Mechatronics and Robotics Option SYS

510

Systems Optimization and Design

4 ECE

525

Instrumentation and Measurements

4 ECE

572*

Microcomputer-based Control Systems

4 ECE

575*

Automotive Mechatronics I 4 ECE

675

Automotive Mechatronics II 4 SYS

623

Dynamics and Control of Robotic Manipulators

4 SYS

632

Analysis of Nonlinear Control Systems

4 SYS

674

Digital Control Systems 4

With approval:

ECE 594, 595, 690, 691, 795

8. Signal Processing Option ECE

533

Random Signals and Processes 4 ECE

537

Digital Signal Processing 4

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ECE 633

Signal Detection and Estimation Theory

4 ECE

638

Digital Image Processing 4 ECE

639

Advanced Digital Signal Processing

4

With approval:

ECE 594, 595, 690, 691, 795

Additional electives (with adviser consultation)

With adviser’s approval, students may also choose their electives from the following group of courses.

CSE 513, 547*, 571

PHY 562, 574, 583, 632, 673

Thesis Option

Students electing this option must accumulate a minimum of 8 credits of ECE 691. Successful completion and defense of a thesis is a prerequisite for earning thesis credits. All theses must conform to university standards (see “Master’s thesis/doctoral dissertation” in the Policies and Procedures section of this catalog).

References

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