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M.S. in Electrical Engineering - Communications and Signal Processing

Saint Paul, Minnesota

 

INTAKE: Jan, May & Sept

Program Overview

The Master of Science (M.S.) in Electrical Engineering with a concentration in Communications and Signal Processing at the University of St. Thomas offers an advanced and STEM-designated program tailored to meet the evolving demands of the telecommunications and signal processing industries. The curriculum integrates theoretical knowledge with hands-on applications, providing students with a solid foundation in electrical engineering principles and specialized expertise in communication systems and signal processing techniques. The M.S. in Electrical Engineering with a concentration in Communications and Signal Processing at the University of St. Thomas provides students with a solid foundation in electrical engineering principles and specialized knowledge in cutting-edge communication systems and signal processing techniques. The STEM designation, practical laboratories, and industry-focused curriculum position graduates for success in the dynamic and rapidly evolving field of electrical engineering.

Curriculum:

  1. STEM Designation: The M.S. in Electrical Engineering with a focus on Communications and Signal Processing holds STEM (Science, Technology, Engineering, and Mathematics) designation, emphasizing its alignment with rigorous academic standards in these disciplines. This designation enhances opportunities for international students and underscores the program's commitment to advanced technical education.

  2. Comprehensive Curriculum: The program offers a comprehensive curriculum covering core electrical engineering concepts and advanced topics in communications and signal processing. Students study subjects such as digital communications, wireless systems, signal processing algorithms, and advanced modulation techniques.

  3. Cutting-Edge Technologies: Recognizing the dynamic nature of the field, the curriculum incorporates cutting-edge technologies and industry-relevant tools. Students gain proficiency in software and hardware used in communication systems and signal processing applications, ensuring they are well-prepared for the demands of the industry.

  4. Hands-On Laboratories: A significant aspect of the program is its emphasis on hands-on laboratories and practical applications. Students engage in experiments and projects in well-equipped laboratories, applying theoretical knowledge to solve real-world problems in areas such as wireless communication and digital signal processing.

  5. Capstone Project: As a culmination of their studies, students undertake a capstone project that allows them to synthesize their learning and address a significant challenge in communications and signal processing. This project provides valuable experience in problem-solving and project management.

  6. Faculty Expertise: The program is led by a distinguished faculty with expertise in electrical engineering, communications, and signal processing. Faculty members bring a blend of academic excellence and industry experience, offering students insights into current industry trends and research opportunities.

  7. Networking Opportunities: Students have opportunities to network with professionals in the field through industry partnerships, seminars, and guest lectures. These interactions provide valuable connections for internships, research collaborations, and future employment.

  8. Industry-Relevant Electives: The program offers a range of elective courses that allow students to tailor their education to specific areas of interest within communications and signal processing. Elective options may include topics such as advanced digital communications, multimedia signal processing, or wireless network security.

  9. Simulation and Modeling: Students gain proficiency in simulation and modeling tools commonly used in the field. This includes software for designing communication systems, analyzing signal processing algorithms, and simulating the performance of complex electrical engineering systems.

  10. Preparation for Professional Certifications: The curriculum is designed to align with professional certifications in electrical engineering and related fields. Students have the opportunity to pursue certifications that enhance their credentials and demonstrate their expertise to potential employers.

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 focus on Communications and Signal Processing from the University of St. Thomas are well-equipped for rewarding careers in a range of industries at the forefront of technological advancements. This specialized program prepares individuals for roles that leverage their expertise in electrical engineering principles, communication systems, and signal processing techniques. The M.S. in Electrical Engineering with a concentration in Communications and Signal Processing from the University of St. Thomas positions graduates for diverse and impactful careers in the rapidly evolving field of electrical engineering. With a focus on emerging technologies and practical applications, graduates are well-prepared to contribute to advancements in communication systems and signal processing methodologies across various industries.

  1. Telecommunications Engineer: Graduates may pursue roles as Telecommunications Engineers, designing and optimizing communication networks. They are responsible for ensuring the efficient transmission of data, voice, and video across various platforms, including wired and wireless systems.

  2. Signal Processing Engineer: With a focus on signal processing techniques, graduates can become Signal Processing Engineers, developing algorithms and methodologies to enhance the quality and efficiency of signal transmission. They play a vital role in industries such as audio processing, image processing, and telecommunications.

  3. Wireless Communication Engineer: The program prepares graduates for roles as Wireless Communication Engineers, where they contribute to the design and implementation of wireless communication systems. They work on technologies such as 5G and beyond, ensuring seamless connectivity and efficient data transfer.

  4. Digital Communication Systems Engineer: Graduates specializing in digital communication systems may work as Engineers, designing and implementing systems that transmit and receive digital signals. They play a crucial role in advancing technologies like digital modulation, error correction, and data compression.

  5. Network Design Specialist: The skills acquired in the program make graduates well-suited for roles as Network Design Specialists, responsible for planning and implementing communication networks. They consider factors such as network architecture, scalability, and security.

  6. Embedded Systems Engineer: In industries such as IoT (Internet of Things) and embedded systems, graduates may work as Engineers designing hardware and software solutions for connected devices. They contribute to the development of smart technologies and interconnected systems.

  7. Research and Development Scientist: Graduates with a strong research orientation may pursue roles as R&D Scientists, contributing to advancements in communication technologies and signal processing methodologies. They may work in research institutions or industry labs.

  8. System Integration Engineer: Graduates may work as System Integration Engineers, ensuring that different components of communication systems work seamlessly together. They focus on interoperability and efficient integration of hardware and software.

  9. Project Manager in Technology: The program provides a strong foundation in project management, enabling graduates to take on leadership roles as Project Managers in technology-focused projects. They oversee the planning, execution, and delivery of projects related to communication systems.

  10. Consultant in Electrical Engineering: Graduates may choose to work as Consultants, providing expertise in electrical engineering, communications, and signal processing to businesses and organizations. They may offer insights on technology adoption, system optimization, and industry best practices.

  11. RF (Radio Frequency) Engineer: Opportunities exist for graduates to specialize in RF engineering, focusing on the design and optimization of radio frequency systems. RF Engineers contribute to the development of wireless communication devices and technologies.

  12. Machine Learning Engineer in Communications: With the integration of machine learning in communication systems, graduates may explore roles as Machine Learning Engineers, applying AI techniques to enhance the efficiency and adaptability of communication networks.

  13. Technical Sales Engineer: Graduates may choose to work in technical sales, serving as Technical Sales Engineers who communicate the benefits of communication and signal processing solutions to clients. They play a pivotal role in bridging technical expertise with client needs.

  14. Entrepreneur in Technology: The program equips graduates with the skills needed to launch their ventures in the technology sector, developing innovative solutions in communication systems, signal processing, or related fields.

  15. Ph.D. and Research Opportunities: For those inclined towards academia and research, the program provides a strong foundation for pursuing a Ph.D. and engaging in cutting-edge research in electrical engineering, communications, and signal processing.

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