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M.S. in Electrical Engineering - Embedded Systems and Internet of Things (IoT)

Saint Paul, Minnesota

 

INTAKE: Jan, May & Sept

Program Overview

The Master of Science (M.S.) in Electrical Engineering with a focus on Embedded Systems and Internet of Things (IoT) at the University of St. Thomas is a cutting-edge program designed to prepare students for the challenges and opportunities presented by the ever-expanding field of connected devices and embedded technologies. This STEM-designated program integrates theoretical knowledge with hands-on experience, equipping students with the skills necessary to design and implement smart systems in various industries. The M.S. in Electrical Engineering - Embedded Systems and IoT program at the University of St. Thomas prepares graduates to navigate the complex landscape of embedded technologies and the Internet of Things. With a STEM designation, hands-on experiences, and a focus on practical applications, students are equipped to make significant contributions to the development of innovative and interconnected systems across various industries.

Curriculum: 

  1. STEM Designation: The M.S. in Electrical Engineering - Embedded Systems and IoT holds STEM (Science, Technology, Engineering, and Mathematics) designation, signifying its adherence to rigorous academic standards in these disciplines. This designation enhances opportunities for international students and underscores the program's commitment to providing advanced technical education.

  2. Comprehensive Curriculum: The program offers a comprehensive curriculum that covers core electrical engineering principles along with specialized courses in embedded systems and IoT. Students delve into topics such as real-time operating systems, microcontroller programming, IoT architectures, and sensor networks.

  3. Practical Applications: An essential aspect of the program is its emphasis on practical applications. Students engage in hands-on projects and experiments, working with industry-standard hardware and software to design and implement embedded systems. This practical experience prepares them for real-world challenges.

  4. IoT Protocols and Technologies: The curriculum includes a focus on IoT protocols and technologies, ensuring that students gain a deep understanding of communication protocols, data security, and connectivity standards relevant to the IoT ecosystem. This knowledge is vital for designing interconnected and secure systems.

  5. Embedded Systems Development: Students learn the intricacies of embedded systems development, including the design of hardware interfaces, firmware development, and integration with sensors and actuators. The program emphasizes both the hardware and software aspects of embedded systems.

  6. Capstone Project: As a culmination of their studies, students undertake a capstone project that allows them to apply their knowledge and skills to solve a real-world problem. This project may involve the design of a prototype IoT device, the development of a smart system, or the optimization of embedded systems for specific applications.

  7. Industry-Relevant Tools and Platforms: Recognizing the importance of staying current with industry trends, the program ensures that students are familiar with industry-relevant tools and platforms used in embedded systems and IoT development. This includes exposure to popular development boards, microcontrollers, and IoT platforms.

  8. Cyber-Physical Systems: The curriculum may include a focus on cyber-physical systems, where students explore the integration of computational algorithms with physical processes. This knowledge is valuable for applications ranging from smart cities to industrial automation.

  9. Wireless Communication in IoT: Students delve into wireless communication technologies that are fundamental to IoT connectivity. This includes the study of wireless protocols, RF communication, and the design considerations for wireless communication in IoT applications.

  10. Faculty Expertise: The program is led by a faculty of experienced professionals and experts in electrical engineering, embedded systems, and IoT. Faculty members bring a blend of academic excellence and industry experience, providing students with insights into current industry practices and research opportunities.

Pollster Education

Location

Saint Paul, Minnesota

Pollster Education

Score

IELTS: 6.5

Pollster Education

Tuition Fee

USD 15412

Postgraduate Entry Requirements

1. Academic Qualifications:

  • Postgraduate applicants are required to hold a bachelor's degree with a strong academic record. The range for academic qualifications is between 70% and 80%.

2. English Language Proficiency:

  • IELTS: 6.5 overall with no band less than 6
  • TOEFL iBT: An overall TOEFL score required is 80.
  • PTE: Minimum PTE score of 53 is required.
  • DET (Duolingo English Test): Minimum DET score required is 105.

3. Credential evaluation required.

The University of St. Thomas (UST) in Minnesota, USA, extends a warm welcome to international students by offering a range of scholarships designed to enhance accessibility and support their educational journey. These scholarships underscore UST's commitment to fostering a diverse and inclusive academic community while providing financial assistance to deserving students from around the world.

1.International Merit Scholarships: UST recognizes and rewards academic excellence in international students through merit-based scholarships. These scholarships are awarded based on outstanding academic achievements, including high school or college GPA, standardized test scores, and other notable accomplishments.

2.Global Leaders Scholarship:UST values leadership qualities and encourages students to actively contribute to their communities. The Global Leaders Scholarship is designed to support international students who have demonstrated exceptional leadership skills and a commitment to making a positive impact.

3.Cultural Diversity Scholarship: Celebrating the richness of cultural diversity, UST offers the Cultural Diversity Scholarship to international students who contribute to the vibrant multicultural tapestry of the university. This scholarship aims to recognize and support students from various cultural backgrounds.

4.Need-Based Financial Aid: Understanding the financial challenges that international students may face, UST provides need-based financial aid to eligible individuals. This aid is tailored to address specific financial circumstances, ensuring that deserving students have the resources to pursue their academic goals.

5.International Transfer Student Scholarships: UST acknowledges the achievements and unique challenges faced by international transfer students. Scholarships for international transfers aim to facilitate a smooth transition and recognize the academic accomplishments of students transferring to UST.

6. Global Perspectives Scholarship: Emphasizing the importance of a global outlook, UST offers the Global Perspectives Scholarship to international students who actively contribute to fostering cross-cultural understanding and engagement on campus.

Graduates of the Master of Science (M.S.) in Electrical Engineering with a specialization in Embedded Systems and Internet of Things (IoT) from the University of St. Thomas are poised for dynamic and impactful careers at the forefront of technological innovation. This program equips individuals with a unique skill set, blending core electrical engineering knowledge with expertise in embedded systems and IoT technologies. The M.S. in Electrical Engineering with a focus on Embedded Systems and IoT at the University of St. Thomas prepares graduates for diverse and rewarding careers in emerging technologies. With a combination of theoretical knowledge, hands-on experience, and a STEM designation, graduates are well-positioned to contribute to the continued evolution of embedded systems and the Internet of Things.

  1. Embedded Systems Engineer: Graduates can pursue roles as Embedded Systems Engineers, responsible for designing, developing, and optimizing embedded systems. They work on a diverse range of applications, from consumer electronics to industrial automation.

  2. IoT Solutions Architect: With a focus on IoT, graduates may become IoT Solutions Architects, designing end-to-end solutions that integrate connected devices, data analytics, and cloud computing. They play a pivotal role in creating scalable and efficient IoT ecosystems.

  3. Firmware Developer: The program prepares graduates for roles as Firmware Developers, where they focus on creating the software that runs on embedded systems. They are responsible for ensuring the functionality and performance of devices.

  4. IoT Product Manager: Graduates can transition into roles as IoT Product Managers, overseeing the development and launch of IoT products. They combine technical expertise with strategic planning to bring innovative solutions to market.

  5. Systems Integration Specialist: With a strong foundation in embedded systems, graduates may work as Systems Integration Specialists, ensuring seamless integration of hardware and software components in complex systems.

  6. Wireless Communication Engineer: The program equips graduates with expertise in wireless communication, making them well-suited for roles as Wireless Communication Engineers. They contribute to the design and optimization of communication protocols in IoT devices.

  7. IoT Security Analyst: Given the importance of security in IoT, graduates may pursue roles as IoT Security Analysts. They focus on identifying and mitigating potential security risks in connected devices and systems.

  8. Automation Engineer: Graduates can explore opportunities as Automation Engineers, applying their knowledge of embedded systems to design automated solutions in industries such as manufacturing, energy, and robotics.

  9. Data Scientist - IoT Analytics: With a focus on IoT data, graduates may transition into roles as Data Scientists specializing in IoT analytics. They analyze large datasets generated by connected devices to extract valuable insights.

  10. IoT Consultant: Graduates may choose to work as IoT Consultants, providing expertise to businesses on implementing IoT strategies. They offer insights into technology adoption, scalability, and the potential impact on business operations.

  11. Smart Cities Engineer: The skills acquired in the program make graduates well-suited for roles related to smart cities. They may contribute to the development of intelligent infrastructure, transportation systems, and environmental monitoring.

  12. Research and Development Engineer: Graduates with a research-oriented focus may pursue roles as R&D Engineers, contributing to advancements in embedded systems and IoT technologies. They may work in industry research labs or academic institutions.

  13. Technical Sales Engineer - IoT Solutions: Graduates may leverage their technical expertise in sales roles, serving as Technical Sales Engineers for IoT solutions. They bridge the gap between technical intricacies and client needs, facilitating the adoption of IoT technologies.

  14. IoT Entrepreneur: The program provides a foundation for entrepreneurship, enabling graduates to launch their ventures in the IoT space. They may develop innovative solutions, products, or services to address specific market needs.

  15. Ph.D. and Research Opportunities: For those inclined towards academia and research, the program lays the groundwork for pursuing a Ph.D. and engaging in advanced research in embedded systems, IoT, and related fields.

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