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oakland university electrical engineering masters

MASTER OF SCIENCE PROGRAMS

Oakland University’s School of Engineering and Computer Science offers ten graduate degree programs ( see graduate catalog) so you can take your learning — and earning potential — to the next level. Learn more about specific programs to find the advanced degree that best fits your needs.

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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 curriculum includes strong offerings in communication systems, computer engineering, control systems, electromagnetics and antennas, energy systems, mechatronics, microelectronics, signal and image processing, and robotics. The program offers two tracks, Professional Track and Research Track.

PROGRAM REQUIREMENTS

Contact Us
Brian K. Dean, Ph.D.
Associate Professor and Academic Programs Coordinator
Electrical and Computer Engineering Department
Oakland University, Rochester, MI 48309-4478
Office: (248) 370-2822
bkdean@oakland.edu

Master of Science in Electrical and Computer Engineering
Department of Electrical and Computer Engineering
446 Engineering Center (map)
(248) 370-2177 • Fax (248) 370-4633
www.oakland.edu/ece/

Coordinator
Brian Dean
446A Engineering Center
(248) 370-2822
bkdean@oakland.edu

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► Graduate Catalog Addendum

Program Description
The Master of Science in electrical and computer engineering degree program (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 include 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 terms and application deadlines
Before an applicant’s file can be reviewed for full program admission, all application documents must be received in Oakland University Graduate School by the semester deadlines listed below. Incomplete applications will not be sent to departments for admission review.

February 15 (early) April 15 (regular) and July 15 (late) for fall semester
October 1 (early) and November 15 (regular) for winter semester
March 1 (regular) for summer semester
International applicants
Application requirements
To be considered for graduate admission, applicants must submit all Graduate Application Requirements and additional department requirements by the published application deadlines:

Graduate Application Requirements

Additional department application requirements

Requirements for recommendations:
Two recommendation forms must be from faculty members of the undergraduate major department or professionals in the field who can evaluate the scholarly achievement and potential of the applicant. These recommendations form an important part of the admission credentials.
Applicants must submit official scores from the Graduate Record Examination (GRE) if they graduated from an institution not accredited by a regional accrediting agency of the USA. The department may choose to waive the GRE requirement if at least one of the following special circumstances is met:
Applicant’s last degree is from a U.S. institution accredited by a regional accrediting agency.
Applicant’s overall GPA from last degree is at least 3.0 on a 4.0 scale.
Applicant has worked in the USA for at least two years in the engineering profession.
To request a waiver, applicants must submit a Request to Waive GRE form to the Graduate School as part of the application packet. The request for waiver is subject to the approval of the Graduate Admissions Committee
Bachelor of Science in electrical engineering or computer engineering. Applicants from other disciplines will be considered after successfully completing appropriate prerequisite courses.
Admission to master’s program is selective; applicants should have an undergraduate GPA of 3.0 on a 4.0 scale or better for regular admission.
If the applicant’s undergraduate GPA is between 2.7 and 3.0 on a 4.0 scale, admission with limited standing may be offered. For applicants graduated from an institution not accredited by a regional accrediting agency of the USA, a 70% or better percentile score of the GRE Quantitative Reasoning section is required.
Applicants from institutions with which Oakland University has an articulation agreement containing alternative admission criteria will be admitted according to the criteria in that agreement.
Admission review and assessment
Admission to graduate school at Oakland University is selective. In making admission recommendations to Oakland University Graduate School, each department assesses the potential of applicants for success in the program by examining their undergraduate records, goal statement, letters of recommendation, prerequisite courses and any other admission requirements established by the academic department.

Related links
Readmission (not enrolled for two years)
Transferring to Oakland University
Transferring to a new program
Degree requirements
To fulfill the requirements for a Master of Science in electrical and computer engineering degree, a student must:

Complete at least 32 credits of graduate-level work, of which at least 24 credits must be in approved courses offered by the School of Engineering and Computer Science.
Earn a cumulative GPA of at least 3.0 in courses applied toward the degree.
Complete the requirements specified for the program in electrical and computer engineering.
Satisfy all requirements concerning academic progress.
The degree requirements may be satisfied by taking only coursework. However, a graduate engineering project (ECE 6996 ) or master’s thesis research (ECE 6998 ) provides a unique and valuable learning experience in which an individual student works with a faculty member in an area of mutual interest. Therefore, students are encouraged to include such an experience as their program permits.

Course requirements
a. Core and Theory course requirements (8 credits)
Choose 8 credits from the following:

APM 5441 – Mathematical Analysis for Engineers I (4 credits)
APM 5442 – Mathematical Analysis for Engineers II (4 credits)
APM 5663 – Applied Mathematics: Discrete Methods I (4 credits)
MTH 5555 – Complex Analysis (4 credits)
SYS 5402 – Systems Optimization and Design (4 credits)
SYS 5404 – Signal and Linear Systems Analysis (4 credits)
ECE 5206 – Random Signals and Processes (4 credits)
b. Depth and Breadth area options (16 credits)
Depth requirement: To satisfy the depth requirement, students must either complete a master’s thesis or choose one of the options below as the depth area and take at least two courses from it. (8 credits)
Breadth requirement: To satisfy the breadth requirement, students must choose two other options as the breadth areas and take at least one course from each. (8 credits)

  1. Communications Option
    ECE 5137 – High-Frequency Electronics (4 credits)
    ECE 5206 – Random Signals and Processes (4 credits)
    ECE 5210 – Principles of Digital Communications (4 credits)
    ECE 5230 – Satellite-Based Positioning Systems (4 credits)
    ECE 6201 – Signal Detection and Estimation Theory (4 credits)
    ECE 6212 – Wireless Communications (4 credits)
    ECE 6214 – Modulation and Coding (4 credits)
    With approval:

ECE 5970, ECE 5900, ECE 6996, ECE 6998***, ECE 7900

  1. Computer Engineering Option
  • ECE 5710 – Computer Hardware Design (4 credits)
  • ECE 5721 – Embedded Systems Design (4 credits)
    ECE 5730 – Embedded System Design with FPGAs (4 credits)
    ECE 5731 – Embedded Computing in Mechatronics (4 credits)
    ECE 5734 – Embedded System Verification and Validation (4 credits)
    ECE 5736 – Reconfigurable Computing (4 credits)
    ECE 5738 – Micro- and Nano-Embedded Systems (4 credits)
    ECE 5770 – GPU Accelerated Computing (4 credits)
  • ECE 5415 – Microcomputer-Based Control Systems (4 credits)
    ECE 5132 – VLSIC Design of Digital Chips (4 credits)
    ECE 6712 – Parallel Embedded Computer Architecture (4 credits)
    ECE 6740 – Advanced Embedded System Design (4 credits)
    ECE 6742 – DSP in Embedded Systems (4 credits)
    ECE 6745 – Real-Time Computing Systems (4 credits)
    ECE 6760 – Fault Tolerant Systems (4 credits)
  • CSE 5640 – Computer Architecture (4 credits)
    With approval:

ECE 5970, ECE 5900, ECE 6996, ECE 6998***, ECE 7900

  1. Controls Option
  • ECE 5415 – Microcomputer-Based Control Systems (4 credits)
    ECE 5520 – Automotive Mechatronics I (4 credits)
    ECE 5734 – Embedded System Verification and Validation (4 credits)
    ECE 6410 – Intelligent Control Systems (4 credits)
    ECE 6520 – Automotive Mechatronics II (4 credits)
    SYS 5404 – Signal and Linear Systems Analysis (4 credits)
    SYS 6400 – Estimation and Control Theory (4 credits)
    SYS 6412 – Digital Control Systems (4 credits)
    SYS 6430 – Analysis of Nonlinear Control Systems (4 credits)
    SYS 6440 – Adaptive Control Systems (4 credits)
    SYS 6452 – Optimal Control Theory (4 credits)
    With approval:

ECE 5970, ECE 5900, ECE 6996, ECE 6998***, ECE 7900

  1. Electromagnetics Option
    ECE 5137 – High-Frequency Electronics (4 credits)
  • ECE 5230 – Satellite-Based Positioning Systems (4 credits)
    ECE 5300 – Electromagnetic Engineering (4 credits)
  • ECE 5310 – Antennas (4 credits)
    ECE 5320 – Electromagnetic Compatibility (4 credits)
    With approval:

ECE 5970, ECE 5900, ECE 6996, ECE 6998***, ECE 7900

  1. Electronics Option
    ECE 5130 – Integrated Circuits and Devices (4 credits)
  • ECE 5132 – VLSIC Design of Digital Chips (4 credits)
    ECE 5134 – Fundamentals of MEMS (4 credits)
  • ECE 5135 – Integrated Electronics (4 credits)
    ECE 5137 – High-Frequency Electronics (4 credits)
    ECE 5140 – Instrumentation and Measurements (4 credits)
    ECE 6132 – Advanced VSLIC Analog/Digital Systems Design (4 credits)
    ECE 6136 – Applications of Analog Integrated Circuits (4 credits)
    ECE 6138 – Field-Effect Devices (4 credits)
    With approval:

ECE 5970, ECE 5900, ECE 6996, ECE 6998***, ECE 7900

  1. Energy Option
    ECE 5610 – Energy Conservation Systems (4 credits)
    ECE 5625 – Microgrid Design and Operations (4 credits)
  • ECE 5630 – Electric and Hybrid Drive Systems (4 credits)
    SYS 5404 – Signal and Linear Systems Analysis (4 credits)
  • SYS 5620 – Electrical Energy Systems (4 credits)
    With approval:

ECE 5970, ECE 5900, ECE 6996, ECE 6998***, ECE 7900

  1. Mechatronics and Robotics Option
    ECE 5140 – Instrumentation and Measurements (4 credits)
  • ECE 5415 – Microcomputer-Based Control Systems (4 credits)
    ECE 5500 – Robotic Systems and Control (4 credits)
  • ECE 5520 – Automotive Mechatronics I (4 credits)
    ECE 5532 – Autonomous Vehicle Systems I (4 credits)
  • ECE 5630 – Electric and Hybrid Drive Systems (4 credits)
    ECE 6460 – Autonomous Vehicle Systems II (4 credits)
    ECE 6520 – Automotive Mechatronics II (4 credits)
    SYS 5402 – Systems Optimization and Design (4 credits)
    SYS 6412 – Digital Control Systems (4 credits)
    SYS 6430 – Analysis of Nonlinear Control Systems (4 credits)
    SYS 6462 – Dynamics and Control of Robot Manipulators (4 credits)
    With approval:

ECE 5970, ECE 5900, ECE 6996, ECE 6998***, ECE 7900

  1. Signal Processing Option
    ECE 5206 – Random Signals and Processes (4 credits)
    ECE 5220 – Digital Signal Processing (4 credits)
    ECE 6201 – Signal Detection and Estimation Theory (4 credits)
    ECE 6240 – Digital Image Processing (4 credits)
    ECE 6242 – Advanced Digital Signal Processing (4 credits)
    With approval:

ECE 5970, ECE 5900, ECE 6996, ECE 6998***, ECE 7900
c. Electives (8 credits)
An additional 8 credits of electives can be chosen from any of the ECE or SYS courses listed above under various options. (8 credits)
Additional electives (with adviser consultation)
With adviser’s approval, students may also choose their electives from the following group of courses:

CSI 5130 – Artificial Intelligence
PHY 5620, PHY 5740, PHY 5830, PHY 6320, PHY 6730

Courses with asterisks (*, **, ***)
* These courses are cross-listed as advanced undergraduate and graduate courses. If completed as a
4000-level course or equivalent as part of baccalaureate degree, the course may be used to offset graduate
program requirements. However, credit will not then be awarded and must be earned by completion of an
approved substitute course.

** At most 4 credits of ECE 5970 and ECE 6996 can be used toward the degree.

*** A minimum of 8 credits are required for master’s thesis (ECE 6998).

Satisfactory academic progress
Satisfactory Academic Progress (SAP) is the term used to denote a student’s successful completion of coursework toward a certificate or degree. Federal regulations require the Office of Financial Aid to monitor Satisfactory Academic Progress for all financial aid recipients each semester.

Students who fall behind in their coursework, or fail to achieve minimum standards for grade point average and completion of classes, may lose their eligibility for all types of federal, state and university aid. Contact the Office of Financial Aid for additional details.

Good academic standing
All graduate students are expected to remain in good academic standing throughout the entire course of their graduate program. To be in good academic standing, a graduate student must make satisfactory progress toward fulfilling degree requirements, including the completion of critical degree milestones as set forth by the academic program. The student must also maintain a minimum semester and overall GPA of 3.0.

Good academic standing is a requirement for:

Holding a Graduate Assistantship
Receiving a fellowship or scholarship
Advancing to candidacy for a graduate degree
Going on a leave of absence
Obtaining a graduate certificate or degree from Oakland University.
Additionally, graduate students must meet all department academic standards which may be more stringent than the minimum set forth by the University.

Department requirements: The minimum satisfactory grade for graduate work is B. Credit for completion of a course in the Master of Science program will be given for grades of B- or above but no more than two grades may be B-. Graduate credit will not be awarded for grades below B-. To repeat a course, a student must have the permission of the graduate committee of the school.

All grades received as a graduate student are used in computing the GPA except that, if a course has been repeated, the most recent grade is used in the calculation of the GPA. A graduate student is placed on academic probation if the student’s overall GPA drops below 3.0 or if the student receives more than one grade below B, including the original grade(s) of any repeated course(s). A graduate student receiving a grade less than B while on probation is subject to dismissal. A graduate student receiving more than two grades below B is subject to dismissal whether or not the student was put on probation previously.

In all programs the minimum grade point requirement is an average of at least 3.0. If a student’s GPA is less than 3.0 after having attempted 16 credits, the student will be recommended for dismissal from the program.

Graduate students who are not in good academic standing for any reason are subject to probation and/or dismissal from further graduate study.

Related program information
Plan of study
All accepted applicants, in consultation with their assigned faculty program adviser, must develop a plan of study that details specific courses the students will use to satisfy their degree requirements. The plan of study must be approved by the faculty program adviser and submitted by the student to Oakland University Graduate School.

Master’s and graduate certificate students must submit a department-approved plan of study by the end of their first semester of graduate coursework. Doctoral students must submit an approved plan of study prior to completion of the first year of coursework. (See the Graduate Student Responsibility section of this catalog.)

Note: Credit granted for successful completion of a course toward an undergraduate degree program may not be repeated for a graduate degree. If a substitution is approved, the minimum number of program-approved graduate credits will be required. A Petition of Exception – OU Course Waiver/ Substitution requesting the substitution must be approved.

Course approval
Approval by the master’s degree adviser and the department chair is required for independent study, engineering projects, a master’s thesis or special topics courses that are used toward the degree. In addition, approval of the faculty administering the independent study, advising the thesis or project or teaching the special topics course must be obtained before registering for these credits.

Course credit
Normally, graduate credit is awarded only for courses numbered 5000 or higher. However, up to 4 credits of Oakland University senior-level (4000-4999) courses in the major can be approved for graduate credit by the student’s adviser. With the added approval of the graduate committee of the school, an additional 4 credits of senior-level courses can also be counted toward the required 32 credits. Course credit will not be awarded for work applied toward another degree. Students who have received credit for the 4000-level version of a cross-listed senior/graduate course cannot receive credit toward a graduate degree for the 5000-level version of that course.

No more than 8 thesis or project credits may be used toward the degree requirements.

Transfer credit
Students transferring from other institutions are allowed to transfer a maximum of 9 credits of graduate coursework with the approval of the department.

Workload and scheduling
Full-time students must register for 8 to 12 credits per semester. Graduate assistants must be full-time students and commit 20 hours per week toward their research or teaching assistantship assignment. Graduate assistants normally register for only 8 credits per semester; however, a 12-credit load can be taken with the approval of the chair of their department.

For the convenience of part-time students employed in industry, courses are arranged in late afternoon and early evening. However, these students should be aware of the very real demands of graduate studies and should keep outside work commitments and their academic load in balance.

Master’s adviser
The progress of each regular student toward the Master of Science degree is directed by the student’s adviser, a faculty member of the School of Engineering and Computer Science who is assigned at the time of admission. Incoming students seeking the degree are urged to discuss their proposed concentration area with their adviser or other faculty members in that area. Students who wish to change their adviser can do so with the approval of the chair of their department.

Master’s project or thesis
Although the master’s degree requirements may be satisfied by taking only coursework, either a graduate engineering project (ECE 6996) or a directed master’s thesis research (ECE 6998) may be included as part of the program.

Students electing a thesis option must accumulate a minimum of 8 credits of ECE 6998. Successful completion and defense of a thesis is a prerequisite for earning thesis credits. Students choosing the thesis option must select an advisory committee, which is composed of at least three faculty members from the School of Engineering and Computer Science. The selection of the committee and the Plan of Study must be approved by the department chair. The chair (major professor) of the advisory committee will direct and guide the research. The student must propose a research topic to the committee for approval at least one semester before graduation. The completed thesis must conform to university standards (see Thesis and Dissertation). At the completion of the research and its documentation, the content of the thesis must be publicly presented and defended. Successful defense of the thesis is a prerequisite for earning the research credits.

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