MS in Accounting
Northeastern University in Boston offers a robust MS in Accounting pro...
MS in Wireless and Network Engineering
Boston
INTAKE: Jan & Sept
Program Overview
The MS in Wireless and Network Engineering program at Northeastern University is designed to provide students with advanced knowledge and skills in the design, implementation, and management of modern wireless communication systems and networks. This program focuses on critical aspects of wireless and mobile networks, including data transmission, security, network design, and troubleshooting. Students gain expertise in emerging technologies, such as 5G and beyond, IoT (Internet of Things), and network infrastructure, positioning them to tackle the evolving challenges in global connectivity and communication technologies.
Curriculum: The curriculum of the MS in Wireless and Network Engineering program at Northeastern University is built to offer both theoretical and practical knowledge in wireless networks. Core courses include network protocols, wireless communication technologies, digital signal processing, network security, and advanced topics such as mobile computing and IoT networks. The program also offers elective courses allowing students to specialize in areas such as 5G networks, cybersecurity, cloud computing, and machine learning for network optimization. Students will complete a capstone project or thesis that demonstrates their mastery of the concepts learned.
Research Focus: Research in the MS in Wireless and Network Engineering program focuses on cutting-edge areas in wireless communication, such as next-generation wireless technologies (including 5G and 6G), software-defined networking (SDN), wireless sensor networks, and network security. Faculty-led research projects explore the optimization of mobile networks, energy-efficient wireless systems, and the application of machine learning in network management. Students have the opportunity to collaborate on research with faculty, engaging in solving real-world challenges and contributing to innovations in network design and communication systems.
Industry Engagement: Northeastern University emphasizes experiential learning, and students in the MS in Wireless and Network Engineering program benefit from close industry connections and real-world experience. The program incorporates co-op opportunities, where students can work with leading companies in telecommunications, technology, and networking, allowing them to apply classroom learning to real-world scenarios. These partnerships also provide students with valuable networking opportunities and a pathway to post-graduation employment. Northeastern's strong relationships with industry leaders in tech and telecom companies give students access to internships, project work, and networking events.
Global Perspective: The MS in Wireless and Network Engineering program offers a global perspective on network engineering by exploring the challenges of deploying and maintaining networks in different regions around the world. This includes considerations for infrastructure development in emerging markets, the role of wireless networks in supporting global IoT applications, and the security challenges posed by international network communication. Northeastern University's international collaboration initiatives allow students to work on projects with global implications, preparing them to tackle the networking challenges of a connected world and understand the diverse needs of networks across the globe.
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.
MS in Wireless and Network Engineering program at Northeastern University provides graduates with the skills and expertise required to pursue a wide range of careers in wireless and network engineering, with opportunities to work in innovative, high-demand fields such as 5G, IoT, cloud networking, and network security.
Network Engineer: Graduates can work as network engineers, designing, implementing, and managing both wired and wireless network infrastructures. They optimize network performance, ensure data security, and maintain high availability, using their expertise in wireless technologies and communication systems.
Wireless Communications Engineer: With a focus on wireless communication technologies, graduates can pursue careers as wireless communications engineers, developing and deploying advanced wireless systems. These professionals work on the design and optimization of networks that support mobile communications, 5G, and IoT technologies.
Telecommunications Engineer: Telecommunications engineers are responsible for designing and maintaining the networks that enable long-distance communication. Graduates can focus on the design, optimization, and troubleshooting of telecom networks, ensuring smooth communication and data transfer across vast areas.
Network Security Engineer: As cyber threats to wireless and network systems continue to grow, graduates can become network security engineers, focusing on securing data, networks, and communication systems. They implement security protocols and practices to protect sensitive information from unauthorized access and cyberattacks.
IoT Systems Engineer: With the growing demand for interconnected devices, graduates can specialize as IoT systems engineers. They design, develop, and manage IoT systems that rely on wireless and network engineering, ensuring seamless connectivity and communication between devices across smart cities, homes, and industrial applications.
5G Network Engineer: As 5G technology evolves, there is an increasing need for 5G network engineers. Graduates can work on the development, installation, and optimization of 5G networks, contributing to faster and more reliable wireless communication systems for mobile devices, businesses, and consumers.
RF (Radio Frequency) Engineer: RF engineers are experts in designing and testing the radio frequency components of wireless communication systems. Graduates can work on the development of wireless transmission systems, optimizing signal strength and minimizing interference in cellular networks, satellite communications, and broadcasting.
Cloud Network Engineer: As more services shift to the cloud, cloud network engineers design and manage cloud-based networking infrastructure. Graduates work on optimizing wireless networks to ensure efficient data transmission between cloud services and end users, contributing to the rise of cloud computing and virtualized networks.
Systems Architect: Graduates can become systems architects, designing the overall architecture of wireless networks. This role involves creating robust systems that handle large amounts of data and connect various network components while ensuring scalability and performance in wireless communication networks.
Wireless Product Development Engineer: Graduates can contribute to the creation and development of wireless products. As wireless product development engineers, they are involved in designing and testing new wireless technologies and products, ensuring their functionality, reliability, and compatibility with existing networks.
