MS in Accounting
Northeastern University in Boston offers a robust MS in Accounting pro...
MS in Electrical and Computer Engineering
Boston
INTAKE: Jan & Sept
Program Overview
The MS in Electrical and Computer Engineering at Northeastern University is designed to equip students with the advanced knowledge and technical expertise necessary to tackle the complex challenges in the fields of electrical and computer engineering. This program provides a comprehensive curriculum that integrates theory and practice, preparing students for leadership roles in industries such as telecommunications, robotics, artificial intelligence, and more. Students will benefit from a combination of classroom learning and hands-on experiences, including opportunities for industry collaboration and research projects that address real-world engineering problems.
Curriculum: The curriculum for the MS in Electrical and Computer Engineering program is structured to give students a deep understanding of core areas such as electronics, circuits, systems, signal processing, and computer architecture. Students have the flexibility to choose from a variety of concentrations, including digital signal processing, robotics, machine learning, communication networks, and embedded systems. The program also allows for elective courses that can be tailored to specific career interests, and it emphasizes practical application through project-based learning. Whether opting for a thesis or non-thesis track, students can apply their learning to cutting-edge problems in the field.
Research Focus: The MS in Electrical and Computer Engineering program at Northeastern University emphasizes research and innovation, providing students with opportunities to engage in high-impact projects within various specialized areas. Research focuses include communications and networks, signal processing, power systems, and computer architecture, among others. The university’s strong connections with industry partners foster collaborative research, particularly in areas like robotics, autonomous systems, cybersecurity, and artificial intelligence. Students are encouraged to contribute to ongoing research efforts and explore emerging technologies that are shaping the future of electrical and computer engineering.
Industry Engagement: Northeastern University is known for its emphasis on industry engagement, and the MS in Electrical and Computer Engineering program is no exception. The program provides numerous opportunities for students to gain hands-on experience through co-op programs, internships, and collaborations with industry leaders. With Boston’s robust tech ecosystem and Northeastern’s established relationships with companies in various sectors, students can apply classroom knowledge to real-world problems while building professional networks. These experiences not only enhance students’ technical skills but also give them valuable insights into the practical demands and challenges faced by the industry.
Global Perspective: Northeastern University’s MS in Electrical and Computer Engineering program takes a global approach to education, preparing students to work in a diverse, interconnected world. The curriculum and research initiatives address global challenges such as sustainable energy, smart cities, and global communications. Through partnerships with international institutions and opportunities for study abroad, students are exposed to a wide range of engineering practices and perspectives. The global network of alumni and faculty also enriches the program by providing students with valuable insights into the engineering industry across different regions and cultures.
Location
Boston
Score
IELTS 6.5
Tuition Fee
USD 29824
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 with a minimum of 6.0 in each component.
- TOEFL: Overall score of 79 or higher.
- PTE: Overall score of 53 or higher.
- DET (Duolingo English Test): Minimum score of 105.
Northeastern University in Boston offers a range of scholarship opportunities for international students to help alleviate the financial burden of studying in the United States. These scholarships are designed to support academically talented students from around the world, promoting diversity and fostering an inclusive campus environment.
Merit-Based Scholarships: Northeastern University provides merit-based scholarships to international students based on academic excellence and achievements. These scholarships are awarded during the admissions process and are highly competitive. The amount and criteria for these scholarships may vary, but they aim to recognize students who demonstrate exceptional academic performance, leadership potential, and a strong their chosen field of study.
Northeastern International Scholars Program: This prestigious program offers scholarships to outstanding international students who exhibit leadership, academic excellence, and a desire to contribute to the global community. The Northeastern International Scholars Program provides both financial support and opportunities for personal growth through networking events, leadership training, and involvement in community service initiatives.
Need-Based Financial Aid: Although Northeastern University does not offer need-based financial aid to international students, there are still many merit-based scholarships available that can significantly reduce tuition costs. However, international students are encouraged to seek external scholarships or funding from their home country to help cover the remaining costs.
External Scholarships and Funding: In addition to institutional scholarships, international students at Northeastern University can explore a variety of external scholarship opportunities from governments, foundations, and organizations in their home countries. Many international students receive funding from these sources to support their education at Northeastern.
Graduates of the MS in Electrical and Computer Engineering program at Northeastern University are prepared for a variety of careers in fields ranging from telecommunications and electronics to software development and robotics. The program equips students with both foundational and advanced skills that can be applied across multiple industries.
Electrical Engineer: Electrical engineers design, develop, and test electrical systems and equipment. Graduates can work on projects involving power generation, transmission systems, circuit design, and other electrical technologies, contributing to industries such as energy, manufacturing, and telecommunications.
Computer Engineer: Computer engineers work on the design and development of computer hardware and software systems. They may work in areas like embedded systems, cloud computing, or AI-driven applications. Graduates in this role often work for tech companies, startups, or large corporations developing computing devices or software infrastructure.
Software Engineer: Software engineers develop and maintain software applications and systems. They work with coding languages, software design patterns, and algorithms to create efficient and reliable software. Graduates with expertise in areas like machine learning, cybersecurity, and cloud computing can enter this rapidly growing field.
Robotics Engineer: Robotics engineers design and build robots used in a wide range of applications, from manufacturing and logistics to healthcare and autonomous vehicles. Graduates with a focus on robotics can contribute to industries such as automation, defense, and space exploration, developing systems that improve efficiency and safety.
Network Engineer: Network engineers design, implement, and maintain the infrastructure that supports communication networks. They work with technologies such as wireless systems, cloud computing, and Internet of Things (IoT) devices to ensure reliable and secure communication for businesses and consumers alike.
Cybersecurity Engineer: Cybersecurity engineers develop systems and protocols to protect digital information from cyber threats. This career option is increasingly important as the demand for securing data and systems grows. Graduates can work in both private and government sectors to develop secure systems and respond to security breaches.
Data Engineer: Data engineers design and build systems for collecting, storing, and analyzing large sets of data. They work closely with data scientists to ensure that data is organized and accessible, enabling organizations to make data-driven decisions. With the increasing importance of big data, this role is critical in industries ranging from finance to healthcare.
Signal Processing Engineer: Signal processing engineers work with systems that manipulate or process signals, such as sound, images, or electromagnetic waves. They are essential in areas like communications, audio and video processing, medical imaging, and radar systems, improving system efficiency and performance.
Systems Engineer: Systems engineers are responsible for designing and managing complex systems, ensuring that all components work together efficiently. This role involves integrating hardware and software and is critical in sectors like aerospace, defense, and telecommunications, where systems need to be highly reliable.
Hardware Engineer: Hardware engineers focus on the physical components of computers and electronic devices, including microprocessors, sensors, and circuits. They design, test, and refine hardware systems used in everything from consumer electronics to medical devices and industrial equipment.
Embedded Systems Engineer: Embedded systems engineers work on the design and development of specialized computing systems embedded within devices like smartphones, automotive systems, medical devices, and home appliances. Graduates in this role often work in the automotive, consumer electronics, and healthcare industries.
Telecommunications Engineer: Telecommunications engineers design and manage the infrastructure for communications systems, including both wired and wireless technologies. This role is vital in the growing field of 5G, satellite communications, and fiber optics, helping improve connectivity on a global scale.
AI/ML Engineer: With the rise of artificial intelligence and machine learning, AI/ML engineers develop algorithms and models that allow machines to perform tasks typically requiring human intelligence. Graduates in this role work in industries such as finance, healthcare, and robotics, applying AI to solve complex problems.
Power Systems Engineer: Power systems engineers design and maintain systems that generate, transmit, and distribute electrical power. They play a key role in the energy industry, focusing on sustainable energy solutions, power grid management, and the integration of renewable energy sources.
