M.S. in Management of Information and Technology
The M.S. in Management of Information and Technology at OU is designed for individuals ...
M.S. in Electrical and Computer Engineering
Norman, Oklahoma
INTAKE: Jan, May & Aug
Program Overview
The M.S. in Electrical and Computer Engineering at OU typically requires 30-33 credit hours. Students can choose between a thesis option, which emphasizes research and is ideal for those considering a Ph.D., and a non-thesis option, which is more coursework-intensive and designed for professionals seeking direct career advancement. The program aims to provide students with a deep understanding of fundamental principles and practical applications across various sub-disciplines of ECE, from circuits and systems to communications and computing hardware/software. It is offered both on the main Norman campus and at the OU-Tulsa campus, with coursework structured to facilitate the learning process for assigned projects and research studies.
STEM Designated: Yes, the Master of Science in Electrical and Computer Engineering at the University of Oklahoma is a STEM-designated program. This designation is highly beneficial for international students, as it qualifies them for a 24-month Optional Practical Training (OPT) extension beyond the initial 12 months, totaling up to 36 months of work authorization in the U.S. after graduation. This reflects the program's rigorous quantitative, analytical, and technical focus, aligning it with high-demand fields in science, technology, engineering, and mathematics.
Curriculum: The curriculum for the M.S. in Electrical and Computer Engineering provides a comprehensive exploration of advanced ECE topics. Students are required to take at least 12 credit hours of ECE coursework at the 5000-level or higher, along with 3 graduate credit hours in math or physics. The program typically includes a core of foundational courses in areas such as signal processing, communications, control systems, power systems, electronics, and computer architecture. Elective courses allow for specialization in diverse areas, including "Wireless Communications," "LTE Advanced and 5G," "Information Theory," "Free Space Optics," "Advanced Machine Learning," "Artificial Neural Networks," "Deep Learning," "Internet of Things," "Computer Vision," and "RF Microelectronics." The curriculum emphasizes hands-on experience and preparing students to handle both hardware and software design and analysis topics.
Research Focus: Research is a central component of the M.S. in Electrical and Computer Engineering program, with faculty and students actively engaged in cutting-edge investigations. The School of ECE has secured significant grants and awards for its research, contributing to advancements in various fields. Key research areas include: Communications, Networks, and Internet-of-Things (IoT) (5G and beyond, cognitive radio, visible light communication, UAV-assisted wireless systems); Electromagnetic Wave Propagation and Systems (RF and microwave technologies, radar detection and imaging, antenna design); Energy and Power (power systems, power electronics, smart grids, renewable energy integration, AI in power systems); and Applied Machine Learning/Artificial Intelligence (leveraging big data, hardware/software parallel architectures for data manipulation). OU-Tulsa's ECE program, for instance, has a strong focus on applied research for developing pragmatic solutions for future wireless networks and efficient digital electronic signal processing.
Industry Engagement: The University of Oklahoma's School of Electrical and Computer Engineering maintains strong industry engagement, which is reflected in its high graduate placement rates. The program is designed to provide professional and research skills necessary for advancing engineering careers. Graduates are highly sought after by prestigious Fortune 500 companies, including technology giants like Apple, Google, Microsoft, Intel, and aerospace leaders like Boeing and General Motors. Faculty members often have direct industry experience, and the curriculum emphasizes hands-on experience with technologies like artificial intelligence, machine learning, and statistical signal analysis. The program's focus on producing "in-demand graduates" through career-driven learning and employer partnerships ensures that students are well-prepared for the professional world.
Global Perspective: The M.S. in Electrical and Computer Engineering at the University of Oklahoma inherently incorporates a global perspective, as the fields of electrical and computer engineering are foundational to global technological advancement and connectivity. The program prepares graduates to contribute to innovations that transcend national borders, from global communication networks to international power systems and computing infrastructure. Students are trained to consider the impact of engineering solutions in global, economic, environmental, and societal contexts. OU's diverse student body and faculty create a multicultural learning environment that fosters diverse perspectives and prepares graduates to collaborate effectively in international teams and address global challenges in technology.
Location
Norman, Oklahoma
Score
IELTS 6.5
Tuition Fee
USD 22582
Postgraduate Entry Requirements
Application Fee: $100
Academic Qualifications: Applicants for postgraduate programs typically require a minimum academic achievement of 70% or above in their bachelor's degree.
English Language Proficiency:
- IELTS: Overall band score of 6.5 or 7.0 with a minimum of 6.0 in each component.
- TOEFL: Overall score of 79 or higher.
- PTE: Overall score of 60 or higher.
The University of Oklahoma offers a variety of scholarships specifically designed to support international students in achieving their academic goals. These scholarships aim to recognize outstanding academic achievements, leadership qualities, and contributions to the campus community while helping to make education more affordable for students from around the world.
Merit-Based Scholarships: OU awards several merit-based scholarships to incoming international undergraduate students based on academic excellence, standardized test scores, and extracurricular accomplishments. These scholarships can significantly reduce tuition costs and are automatically considered during the admissions process or require a separate application.
International Ambassador Scholarship: This prestigious scholarship recognizes students who demonstrate strong leadership skills, a commitment to cultural exchange, and active participation in university life. Recipients often serve as ambassadors for OU’s international community, promoting diversity and inclusion.
Graduate Fellowships and Assistantships: For international graduate students, OU offers numerous fellowships, research assistantships, and teaching assistantships. These positions provide financial support in the form of tuition waivers and stipends while offering valuable professional experience in academic and research settings.
Country-Specific Scholarships: OU periodically partners with governments, foundations, and organizations to offer scholarships targeting students from specific countries or regions. These scholarships foster international collaboration and cultural exchange.
External Scholarships and Financial Aid Resources: In addition to university-funded awards, OU provides guidance and resources to help international students find external scholarships, grants, and financial aid opportunities available through private organizations, embassies, and international agencies.
A Master of Science (M.S.) in Electrical and Computer Engineering (ECE) from the University of Oklahoma (OU) provides graduates with advanced technical expertise and research capabilities in the diverse and interconnected fields of electrical and computer engineering. Offered through the School of ECE within the Gallogly College of Engineering, this STEM-designated program prepares individuals to lead innovation in areas ranging from power systems and wireless communication to artificial intelligence and embedded systems. OU's program is distinguished by its strong research focus and connections with leading industry players, ensuring graduates are well-prepared for impactful and high-demand roles.
Electronics Engineer (Senior/Lead): Designing, developing, and testing electronic components, circuits, and systems for a vast array of products, including consumer electronics, medical devices, and automotive systems. This often involves working with microcontrollers, PCBs, and integrated circuits.
Power Systems Engineer: Specializing in the generation, transmission, distribution, and utilization of electrical power. They work on designing and optimizing power grids, integrating renewable energy sources, developing smart grid technologies, and ensuring the reliable delivery of electricity.
Embedded Systems Engineer: Designing and developing specialized computer systems embedded within larger devices or machines. This is crucial for products like smartphones, IoT devices, automotive control units, and industrial automation systems, requiring expertise in both hardware and firmware.
Wireless Communications Engineer: Focusing on the design, development, and optimization of wireless communication systems and networks. This includes working with technologies like 5G, Wi-Fi, satellite communication, and developing robust protocols for data transmission.
Control Systems Engineer: Designing, implementing, and maintaining automatic control systems for various applications, such as industrial automation, robotics, aerospace systems, and automotive control. They develop algorithms and models to ensure system stability and performance.
Computer Hardware Engineer: Researching, designing, developing, and testing computer hardware components such as processors, circuit boards, memory devices, and input/output devices. They work to improve performance, efficiency, and reliability of computing systems.
Machine Learning/AI Engineer: Applying advanced principles of machine learning and artificial intelligence to design and implement intelligent systems. This often involves working with large datasets, developing predictive models, and integrating AI into various applications, from image processing to autonomous vehicles.
RF (Radio Frequency) Engineer: Specializing in the design, development, and testing of devices and systems that operate using radio frequencies, such as antennas, transceivers, and microwave circuits. This is vital for wireless communication, radar, and satellite systems.
Research and Development (R&D) Engineer: Conducting cutting-edge research to develop new technologies, materials, and methodologies within various ECE sub-disciplines. These roles are often found in corporate R&D labs, government research facilities, or academic institutions.
Cybersecurity Engineer (Hardware/Embedded Systems): Focusing on securing the hardware and embedded systems components of computing and electrical infrastructure. They identify vulnerabilities, design secure architectures, and implement cryptographic solutions to protect against cyber threats at a foundational level.
