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Master of Engineering- Electrical Engineering
Hoboken, New Jersey
INTAKE: Jan & Sept
Program Overview
The M.Eng. in Electrical Engineering is a 30-credit-hour program, typically completed within 1.5 to 2 years for full-time students. The curriculum is structured to include a mathematical foundations course, four core electrical engineering courses, and three concentration courses in a chosen specialization. Students also have the option of completing a 3-credit project work with a co-requisite zero-credit seminar and a 3-credit elective, or a 6-credit thesis for a more research-intensive path. The program offers flexibility, being available both on-campus and fully online through StevensOnline, accommodating a diverse range of students, including working professionals seeking to advance their careers.
STEM-designated: Yes, the Stevens Institute of Technology M.Eng. in Electrical Engineering program is STEM-designated. This is a significant advantage, particularly for international students. The STEM designation makes them eligible for a 24-month extension of their Optional Practical Training (OPT) in the United States, allowing for a total of up to three years of valuable post-graduation work experience. This designation clearly reflects the program's rigorous quantitative, scientific, and technological focus, which is highly valued by employers in the electrical engineering, technology, and related industries.
Curriculum: The 30-credit curriculum begins with a mathematical foundation course (3 credits). Core courses (12 credits) typically include subjects like Digital Signal Processing, Linear Systems Theory, Communication Theory, Introduction to Control Theory, and Applied Modeling and Optimization. Students then choose one of several concentrations (9 credits), allowing for specialization in areas such as Communications, Power Engineering, Robotics and Automated Systems, Microelectronics and Photonics, or Artificial Intelligence. Elective courses provide further depth in specialized topics within these concentrations. The program culminates with either project work and an elective or a thesis, offering a customized learning experience that balances theoretical knowledge with practical application. The curriculum aims to develop students' ability to analyze electrical systems, design experiments, use mathematical and modeling principles, and utilize computer software for data analysis.
Research Focus: The M.Eng. in Electrical Engineering program at Stevens has a strong research focus, emphasizing problem-solving skills development for real-world applications. Faculty members in the Electrical and Computer Engineering Department are actively engaged in cutting-edge research projects, often funded by organizations like the National Science Foundation, Air Force Research Laboratory, and the Office of Naval Research. Research areas encompass artificial intelligence applications for engineering, signal processing, medical diagnostic systems, information security and forensics, networked information systems and applications, and embedded, real-time intelligent microelectronic systems. The Stevens Institute for Artificial Intelligence (SIAI) further supports interdisciplinary research within the department's Center for Innovative Computing and Networked Systems (iCNS). Students have opportunities to engage in independent research through the thesis track, contributing to advancements in these fields.
Industry Engagement: Stevens Institute of Technology places a very high priority on industry engagement for its Electrical Engineering program. Its strategic location, just 15 minutes from downtown Manhattan, provides students with exceptional career networking opportunities in the thriving technology, finance, and engineering sectors. The curriculum is continuously updated to reflect the latest labor market trends and technologies, such as generative AI, ensuring graduates acquire in-demand skills. Faculty researchers often have strong ties to industry, consulting with top companies like Microsoft, IBM, Google, and Bloomberg. Stevens' Career Center actively connects students with internships and full-time positions, contributing to the program's excellent employment outcomes.
Global Perspective: Stevens Institute of Technology fosters a global perspective within its M.Eng. in Electrical Engineering program through its diverse international student body and the inherently global nature of the electrical engineering field. The university attracts students from over 60 countries, creating a rich multicultural learning environment that enriches classroom discussions and broadens understanding of global computing challenges. The universal applicability of electrical engineering concepts—from designing secure systems to developing AI solutions—prepares graduates to contribute to technological advancements and collaborate on projects that transcend national borders, ensuring they are well-equipped for careers in a globally interconnected professional landscape.
Location
Hoboken, New Jersey
Score
IELTS 6.5
Tuition Fee
USD 46048
Postgraduate Entry Requirements
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 74 or higher.
- DET (Duolingo English Test): Minimum score of 110.
Stevens Institute of Technology offers a variety of scholarships specifically designed to support international students, helping to make a world-class education more affordable and accessible. These scholarships recognize academic excellence, leadership potential, and contributions to the campus community.
Merit-Based Scholarships: Stevens provides competitive merit scholarships for international undergraduate and graduate students based on academic performance, standardized test scores, and other achievements. These awards can significantly reduce tuition costs and are automatically considered during the admissions process for many programs.
Need-Based Financial Aid: While limited, some need-based aid options are available to international students. Applicants are encouraged to provide detailed financial information to be considered for such assistance.
Graduate Fellowships and Assistantships: International graduate students may be eligible for fellowships, research assistantships, or teaching assistantships, which offer tuition waivers and stipends. These opportunities not only provide financial support but also valuable hands-on experience in research and academic work.
Special Scholarships: Stevens occasionally offers specialized scholarships targeting students from certain countries, underrepresented fields, or those pursuing specific disciplines like engineering, business, or cybersecurity. Prospective students should check the official Stevens website or contact the admissions office for current scholarship opportunities.
A Master of Engineering (M.Eng.) in Electrical Engineering from Stevens Institute of Technology, located in Hoboken, New Jersey, is a highly respected and STEM-designated program designed to equip graduates for impactful leadership roles within the dynamic field of electrical engineering.
Electronics Design Engineer: These engineers are at the forefront of innovation, conceptualizing, designing, and testing electronic circuits, components, and systems for a vast array of applications in consumer electronics, medical devices, automotive, and industrial equipment.
Control Systems Engineer: Specializing in the design, implementation, and maintenance of automated control systems for machinery and processes, crucial for efficiency and precision in industries such as manufacturing, aerospace, and robotics.
Power Systems Engineer: With a concentration in Power Engineering, graduates work on the design, operation, and maintenance of electrical power generation, transmission, and distribution systems, including the integration of smart grid technologies and renewable energy sources.
Communications Engineer: These professionals design and develop advanced communication systems, encompassing wireless networks, satellite communication, fiber optics, and 5G/6G technologies, ensuring efficient and reliable data and signal transmission.
Digital Signal Processing (DSP) Engineer: Focuses on the analysis, design, and implementation of algorithms for processing and interpreting various signals, vital for applications in telecommunications, audio/video processing, medical imaging, and radar systems.
Robotics Engineer (Electrical/Controls focus): Graduates apply their electrical engineering expertise to the design and development of robotic systems, particularly concerning their electrical architecture, motor control, sensor integration, and automation algorithms.
Embedded Systems Engineer: These engineers work at the intersection of hardware and software, designing and implementing embedded systems for a wide range of devices, including IoT (Internet of Things) devices, automotive electronics, and industrial control systems.
RF/Microwave Engineer: Specializes in radio frequency and microwave technologies, designing components and systems for wireless communication devices, radar systems, satellite communication, and other high-frequency applications.
Test/Validation Engineer (Electrical/Electronics): Develops and executes comprehensive test plans to ensure the quality, performance, and reliability of electrical components, circuits, and systems, crucial during product development and manufacturing.
Artificial Intelligence (AI) Engineer (Electrical Applications): Leveraging the AI concentration, graduates apply machine learning and AI principles to electrical engineering problems, such as smart grid optimization, autonomous systems, predictive maintenance for electrical equipment, or intelligent sensor design.
