The Electrical and Computer Engineering Department is listed in the top 100 college departments according to U.S. News & World Report, and it brings in approximately $2 million in research funding annually. Students graduate with nearly 100% job placement and have among the highest starting salaries of all degree programs.
The ME is designed for working engineers or students with a BS degree in electrical or computer engineering who would like to increase their technical depth in engineering.
USU offers a unique two-year program designed for engineers who would like to add to their technical knowledge as well as develop the business skills needed to keep pace in the global technical world of the 21st century. Students earn both the ME and an MBA through this two-year program.
- Computer Engineering: Students in this specialization focus on software and computer hardware engineering.
- Electrical Engineering: Students take courses in several different areas within electrical engineering, including control systems, electromagnetic and microwaves, space systems, and signals and communication.
Typically, most ME students are already employed as professional engineers. Earning an ME can allow students to advance in their fields. Depending on which area they choose to specialize in, the following options are available:
Electrical Engineering Specialization
Since nearly everyone uses electricity and electrical devices, graduates in electrical engineering can work in almost any kind of industry. Electrical engineers develop anything from rockets, cell phones, computers, antennas, signal towers, robotics, and more. The following are examples of areas in which electrical engineers can work:
- Scientific research and development firms
- Electrical component manufacturing companies
- Power generation, distribution, and transmission
- Manufacturers of navigation controls, medical equipment, and measurement devices
- Architectural firms
Computer Engineering Specialization
Graduates in computer engineering can work for any company or organization that requires software or hardware engineers. Given the current reliance on computer technology in the workplace, this means that many companies require computer engineers. Computer engineers can work in the following areas:
- Software publishing
- Computer systems designs
- Management companies
- Telecommunications companies
- Quality control
- Large and small businesses
- Governmental offices
- Educational institutions
Non-ECE undergraduate majors may be accepted provisionally into the Masters graduate program if they meet the required qualifications set by the ECE graduate committee and complete the following pre-requisites with a B or better grade:
- ECE 3410 – Microelectronics I
- ECE 3620 – Circuits and Signals
- ECE 3640 – Signals and Systems
- ECE 3710 – Microcomputing Hardware and Software
- ECE 3870 – Electromagnetics I Electrical Engineering Majors
- CS 3100 – Operating Systems and Currency Computer Engineering Majors
Depending on the specialization of the undergraduate degree, certain courses may be waived if the course or the equivalent was taken. Courses may also be waived by passing an exam at the discretion of the course instructor.
Students may take these prerequisites concurrently with graduate coursework depending on the amount of prerequisites they need. These situations are handled on a case-to-case basis.
- Complete the online application
- Pay the $55 application fee
- The GRE requirement is being temporarily suspended until further notice
- Have a 3.0 or higher GPA on your last 60 semester or 90 quarter credits
- Provide transcripts of all college/university credits
- Provide three contacts for letters of recommendation
International students have additional admissions requirements.
The department has the following deadlines:
- Fall semester – January 1
- Spring semester – July 1
For the ME/MBA program:
- Fall semester – May 1
All ME students are required to fulfill a professional experience. For this, they can do either of the following:
- Complete a three-credit internship
- Complete one of the department’s four-credit, substantial lab-intensive courses
Master's Degree Plan Option(s)
Students receive the ME by pursuing the following plan option:
- The Plan C does not involve a thesis or a defense meeting and is comprised of coursework only.
Doran Baker, PhD, University of Utah
Area: Remote Sensing, Space Science and Engineering
Office: ENLAB 301
Phone: (435) 797-3666
Reyhan Baktur, PhD, Clemson University
Office: ENLAB 150
Phone: (435) 797-2955
Scott Budge, PhD, Brigham Young University
Associate Department Head, Associate Professor
Area: Image Processing, Signal Processing
Office: ENLAB 113
Phone: (435) 797-3433
Bedri Cetiner, PhD, Yildiz Technical University, Istanbul
Office: ENLAB 251
Phone: (435) 797-3320
Koushik Chakraborty, PhD, University of Wisconsin – Madison
Area: Computer Architecture, VLSI
Office: ENLAB 255B
Phone: (435) 797-9157
YangQuan Chen, PhD, Nanyang Technical University
Area: Intelligent control, automation mechatronics
Office: ENLAB 216
Phone: (435) 797-0148
Don Cripps, PhD, Utah State University
Professor of Practice
Area: Control Systems, Electromagnetics
Office: ENLAB 180
Phone: (435) 797-8171
Jacob Gunther, PhD, Brigham Young University
Area: Signal Processing, Communications
Office: ENLAB 172
Phone: (435) 797-7229
H. Scott Hinton, MS, Purdue University
Professor and President of USU Research Foundation
Area: Photonic switching
Office: 1695 North Research
Phone: (435) 713-3084
Rose Hu, PhD, University of Kansas
Area: Wireless Communications
Office: ENLAB 178
Phone: (435) 797-7869
Todd Moon, PhD, University of Utah
Department Head, Professor
Area: Digital Signal Processing, Communications
Office: ENLAB 149D
Phone: (435) 797-2970
Wei Ren, PhD, Brigham Young University
Office: ENLAB 222
Phone: (435) 797-2831
Sanghamitra Roy, PhD, University of Wisconsin – Madison
Area: VLSI Design, VLSI Optimization
Office: ENLAB 255C
Phone: (435) 797-9156
Edmund Spencer, PhD, University of Texas – Austin
Area: Space science and engineering
Office: ENLAB 241 C
Phone: (435) 797-8203
Charles Swenson, PhD, Cornell University
Area: Space Science and Engineering
Office: ENLAB 241D
Phone: (435) 797-2958
Paul Wheeler, PhD, Brigham Young University
Associate Professor, Dual ME/MBA Advisor
Area: Microprocessors, telecommunications, signal processing
Office: ENLAB 148
Phone: (435) 797-2803
Chris Winstead, PhD, University of Alberta, Canada
Area: Analog VLSI
Office: ENLAB 304
Phone: (435) 797-2871
Professional Organizations, Honor Societies, and Clubs
Institute of Electrical and Electronics Engineers: This is the world’s largest professional association dedicated to advancing technological innovation and excellence for the benefit of humanity. IEEE and its members inspire a global community through IEEE's highly cited publications, conferences, technology standards, and professional and educational activities.
Society of Women Engineers: This is a national society whose mission is to stimulate women to achieve full potentials in careers as engineers and leaders, expand the image of the engineering profession as a positive force in improving the quality of life, and demonstrate the value of diversity. The SWE student chapter at USU has more than 40 participants (both men and women). Members not only enjoy the association with each other but also enjoy various activities and service projects designed to support female students studying engineering.
Labs, Centers, Research
AggieAir Flying Circus: AggieAir Flying Circus provides high-resolution, multispectral aerial imagery using a small, unmanned aerial system. The system is able to map small areas quicker, more frequently, at greater resolution, and at a smaller cost than conventional remote sensing. Some applications for AggieAir include monitoring of soil moisture and evapotranspiration in agriculture, riparian habitat mapping, road and highway surface monitoring, wetland mapping, and fish and wildlife tracking.
Anderson Center for Wireless Teaching and Research: This center provides state-of-the art wireless communication teaching and research with emphasis on industry-relevant design projects.
Center for Active Sensing and Imaging: CASI uses radar-like, laser-based LIDAR technology to measure distances instead of radio waves for a variety of industrial applications, including sitting wind farms, controlling emissions, and rapid replacement of bridges, runways, and other infrastructure.
Center for Atmospheric and Space Sciences: CASS is recognized nationally and internationally as a progressive research center with advanced space and upper atmospheric research programs. CASS scientists are tackling the adverse consequences of space weather. Undergraduate and graduate students are involved in numerous research projects in CASS that provide opportunities to program computers, analyze data, and build instrumentation.
Center for High Performance Computing: HPC at USU is a research service center that serves and expands the computational needs of the USU community. HPC at USU houses a 256-processor cluster called “Uinta,” with three networks.
Center for Self-Organizing and Intelligent Systems: CSOIS is a multi-disciplinary research group at USU that focuses on the design, development, and implementation of intelligent, autonomous mechatronic systems, with a focus on ground vehicles and robotics.
Center for Space Engineering: CSE is a multi-disciplinary group of faculty at USU involved in space technology, systems, and science. The center brings together academics, industry, and government to advance the understanding of the space environment and to train the next generation.
Energy Dynamics Laboratory: EDL bridges the gap between academia and industry, confronting the challenges of prototyping, deployment, and commercialization of enabling technologies for renewable and advanced energy systems. USU researchers originate projects to derive energy from non-fossil fuels, such as biofuels, wind, and solar power. With EDL’s collaboration, research develops through pilot projects to commercial application.
Energy Laboratory: This lab seeks to develop solutions to America's most intractable energy problems through scientific and technological innovation. It provides a cohesive framework permitting faculty, students, and partnering institutions to focus on contemporary energy-related research issues.
Environmental Management Research Group: EMRG is a research unit of the Utah Water Research Laboratory focused on integrated watershed management and systems analysis of environmental problems. EMRG provides software development, watershed and water quality modeling, and GIS data analysis service to internal and external entities directed at solving integrated watershed and environmental management-related problems of a variety of scales.
Institute for Intuitive Buildings: Because a considerable amount of energy is wasted in lighting, cooling, and ventilating commercial buildings, the I2B team will create real-time scene measurement and interpretation techniques for electric lighting systems.
Micron Research Center: This center was established in the fall of 2007 at Utah State University by a grant from the Micron Technology Foundation Inc. The goal of the MRC is to engage faculty and students from multiple disciplines in cutting-edge research in the area of 3D integrated circuits.
Rocky Mountain NASA Space Grant Consortium: RMNSGC is one of 52 National Space Grant Consortia in the United States. As a member of the consortium, USU has awarded more than 100 fellowships to students interested in aerospace-related education and careers. The majority of Space Grant student awards include a mentored research experience with university faculty and NASA scientists, engineers, and technologists.
Space Dynamics Laboratory: SDL is known for sending 500+ successful experiments into space and brings in $54 million per year in revenue, the majority coming from grants, contracts, and appropriations. SDL’s expertise in the development of sensors and calibration, small satellites and real-time intelligence has made it an internationally known organization in the space arena.
Synthetic Biomanufacturing Center: SBC uses the chemical makeup present in single-cell organisms to transform raw materials into environmentally friendly products, such as low-cost bioplastics, biodiesel, light energy, and pharmaceuticals.
Utah Transportation Center: The UTC uses its expertise in natural hazards to research congestion chokepoints, evacuation occurrences, infrastructure renewal, and operations as it relates to multi-modal transportation.
Office: ENLAB 149 A
Phone: (435) 797-2840
Professor of Practice
Office: ENLAB 180
Phone: (435) 797-8171