MS in Accounting
Northeastern University in Boston offers a robust MS in Accounting pro...
MS in Cyber-Physical Systems
Boston
INTAKE: Jan & Sept
Program Overview
The MS in Cyber-Physical Systems program at Northeastern University is an interdisciplinary graduate program designed for students interested in the integration of computer-based algorithms with physical systems. Cyber-Physical Systems (CPS) involve the combination of computing, networking, and physical processes, and this program offers a comprehensive understanding of these systems’ design, operation, and management. Students gain expertise in fields such as automation, robotics, sensors, embedded systems, and networked control systems. The program is tailored to those looking to pursue careers in industries where computing technologies intersect with physical processes, such as manufacturing, healthcare, transportation, and smart cities.
Curriculum: The curriculum of the MS in Cyber-Physical Systems focuses on both theoretical knowledge and practical applications. Students are introduced to the core principles of embedded systems, control theory, sensor networks, and real-time systems. The coursework also covers the programming, design, and optimization of systems that integrate hardware and software. The program offers elective courses in areas such as artificial intelligence, machine learning, cybersecurity, and Internet of Things (IoT), allowing students to specialize based on their career interests. Additionally, students can participate in hands-on lab experiences, capstone projects, and co-op placements to apply their knowledge in real-world settings.
Research Focus: The MS in Cyber-Physical Systems program emphasizes research in the intersection of physical systems and computing, encouraging students to explore innovative solutions for emerging technologies. Research topics within the program include autonomous systems, robotics, smart sensors, Internet of Things (IoT), and advanced manufacturing technologies. Faculty members are engaged in groundbreaking research with industry partners, offering students the opportunity to collaborate on projects that push the boundaries of cyber-physical systems. The program also offers students the chance to contribute to research through thesis work or by engaging in cutting-edge projects in various labs at Northeastern.
Industry Engagement: Northeastern University’s MS in Cyber-Physical Systems program is deeply embedded in the university's ethos of experiential learning, ensuring strong industry engagement. The university’s partnerships with leading technology firms, startups, and government agencies provide students with ample opportunities for co-op internships, hands-on projects, and industry-specific research. Students have the chance to apply classroom knowledge to real-world problems, whether working on the latest advancements in robotics, cybersecurity, or sensor networks. These industry connections allow students to build valuable professional networks, gain relevant experience, and enhance their career prospects upon graduation.
Global Perspective: The MS in Cyber-Physical Systems program at Northeastern University also incorporates a global perspective on the challenges and opportunities in this rapidly evolving field. Students are exposed to international research collaborations, global standards in cyber-physical systems, and case studies from around the world. The program emphasizes the global impact of cyber-physical systems on industries such as transportation, healthcare, and urban infrastructure. Through opportunities such as study abroad programs, global co-ops, and exposure to international research, students gain a broad understanding of how cyber-physical systems are shaping industries and societies worldwide.
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 Cyber-Physical Systems program from Northeastern University are equipped with the skills to pursue a wide range of exciting career paths in industries that bridge the gap between physical and digital systems. With expertise in embedded systems, robotics, sensor networks, and control systems, these professionals are in high demand.
Cyber-Physical Systems Engineer: Designing and developing integrated systems that combine hardware and software to control physical processes in industries such as manufacturing, energy, and transportation.
Robotics Engineer: Working on the design, development, and implementation of robotic systems that interact with the physical world, often for automation in industries like automotive or healthcare.
Embedded Systems Engineer: Focusing on the design and optimization of hardware and software systems for devices that interact with sensors, actuators, and other physical components in fields such as IoT, automotive, and aerospace.
Control Systems Engineer: Developing and implementing control strategies for cyber-physical systems, such as managing industrial processes, automated machinery, or robotics.
Automation Engineer: Specializing in the creation of automated systems and processes to improve efficiency and reduce human intervention, particularly in industries like manufacturing, pharmaceuticals, and logistics.
IoT Systems Architect: Designing and managing interconnected devices that communicate with each other and the cloud, ensuring that systems are efficient, secure, and scalable for sectors such as smart cities, healthcare, and logistics.
Data Scientist/AI Specialist (in CPS): Applying machine learning, artificial intelligence, and data analytics to optimize the performance of cyber-physical systems in real-time, particularly in fields like autonomous vehicles, smart grid systems, and precision manufacturing.
Network Security Engineer: Protecting the integrity and security of cyber-physical systems from cyber threats, particularly in critical infrastructure sectors such as power grids, transportation, and healthcare.
