M.S. in Agricultural
Mississippi State University (MSU), located in Starkville, Mississippi, USA, offers an ...
M.S. in Electrical and Computer Engineering
Starkville, Mississippi
INTAKE: Jan, May & Aug
Program Overview
Mississippi State University (MSU), located in Starkville, Mississippi, USA, offers an exceptional Master of Science (M.S.) program in Electrical and Computer Engineering. This STEM-designated program provides graduates with a strong foundation in electrical and computer engineering principles, preparing them for careers at the forefront of technological innovation. Mississippi State University's STEM-designated M.S. in Electrical and Computer Engineering program offers a comprehensive and forward-looking education in the field. Graduates are well-equipped to contribute to technological advancements, drive innovation, and pursue successful careers in a variety of industries that rely on electrical and computer engineering expertise.
Curriculum:
1. STEM-Designation: MSU's M.S. in Electrical and Computer Engineering program proudly holds STEM (Science, Technology, Engineering, and Mathematics) designation. This designation signifies the program's focus on providing education and training in critical STEM fields, supporting graduates in pursuing careers in high-demand technical industries.
2. Comprehensive Curriculum: The program offers a comprehensive curriculum that covers core areas of electrical and computer engineering, including digital systems, signal processing, power systems, communications, embedded systems, and microelectronics. Students gain in-depth knowledge of both electrical and computer engineering disciplines.
3. Specialization Options: MSU often provides students with opportunities to specialize in areas such as control systems, robotics, machine learning, VLSI design, and telecommunications. Specializations allow students to tailor their education to their specific career interests.
4. Advanced Courses: The program typically includes advanced courses that delve into cutting-edge topics in electrical and computer engineering, addressing emerging technologies and industry trends.
5. Laboratory Work: Students engage in hands-on laboratory work, gaining practical experience in designing and testing electrical and computer systems. Well-equipped labs facilitate experimentation and project-based learning.
6. Research Opportunities: MSU's program often encourages students to engage in research projects, collaborate with faculty, and contribute to advancements in the field. Research experiences prepare graduates for innovative roles in industry and academia.
7. Interdisciplinary Approach: With a focus on interdisciplinary collaboration, students have the opportunity to work on projects that bridge electrical and computer engineering with other fields, such as biomedical engineering, environmental science, and cybersecurity.
8. Ethical Considerations: Ethical considerations in engineering practice are emphasized throughout the program, ensuring that graduates approach their work with integrity and responsibility.
9. Industry Partnerships: MSU frequently collaborates with industry partners, allowing students to work on real-world projects, gain exposure to industry practices, and establish valuable connections for future career opportunities.
10. Entrepreneurship: The program may offer resources and support for students interested in entrepreneurship, helping them turn innovative ideas into successful technology startups.
11. Capstone Projects: Many students complete capstone projects, applying their knowledge and skills to solve real engineering challenges. Capstone projects showcase students' abilities and provide practical experience for future employment.
12. Professional Development: MSU often provides professional development opportunities, including seminars, workshops, and conferences, enabling students to stay updated with the latest advancements in electrical and computer engineering.
13. Networking: Students benefit from networking opportunities, including interactions with industry professionals, alumni, and guest speakers, enhancing their job prospects and career development.
14. Licensure Preparation: Graduates are well-prepared to pursue engineering licensure, meeting the requirements established by state licensing boards.
15. Career Support: MSU frequently offers career support services, including job placement assistance, resume building, interview preparation, and access to a strong alumni network.
16. Industry Demand: The program aligns with the high demand for electrical and computer engineering professionals in sectors such as telecommunications, electronics, energy, automation, aerospace, and information technology.
Location
Starkville, Mississippi
Score
IELTS: 6.5
Tuition Fee
USD 25444
Entry Requirements for Postgraduate Programs
Application Fees : US$ 80
1. Academic Qualifications:
- Applicants should have completed a bachelor's degree or its equivalent from a recognized institution.
- A minimum overall percentage of 83-86 or its equivalent is typically required for admission.
2. English Language Proficiency:
- IELTS: An overall score of at least 6.5 with no individual band score below 6.0.
- TOEFL iBT: A minimum overall score of 79 is often required.
3. Score reporting required.
Mississippi State University (MSU) recognizes the importance of providing financial assistance to international students to help them pursue their higher education goals. The university offers a variety of scholarships to support the academic achievements and contributions of international students. These scholarships are designed to recognize excellence, diversity, and leadership.
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Global Excellence Scholarship: The Global Excellence Scholarship is awarded to high-achieving international students based on their academic merit. This scholarship recognizes students who have demonstrated exceptional academic performance in their previous studies. The scholarship amount varies and is renewable based on maintaining a specified GPA.
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International Student Scholarships: MSU offers a range of scholarships specifically for international students. These scholarships consider factors such as academic achievement, leadership potential, and contributions to the campus community. Award amounts and eligibility criteria may vary.
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Intensive English Institute (IEI) Scholarships: MSU's IEI offers scholarships to international students who enroll in English language programs. These scholarships help students improve their English language skills before pursuing their academic studies at the university.
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Departmental Scholarships: Various academic departments at MSU offer scholarships to international students who are pursuing specific fields of study. These scholarships are often based on academic performance, research interests, and involvement in departmental activities.
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Cultural Exchange Scholarships: MSU encourages cultural exchange by offering scholarships to international students from specific countries or regions. These scholarships promote diversity and foster a global learning environment on campus.
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Graduate Assistantships: International graduate students may have the opportunity to work as research or teaching assistants, which can come with a stipend, tuition waiver, and valuable work experience.
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External Scholarships: MSU provides information and guidance to international students seeking external scholarships, grants, or funding opportunities offered by government agencies, foundations, and organizations.
Application Process: The application process for scholarships at MSU may vary depending on the scholarship program. Generally, students need to complete their application for admission to the university before they can be considered for scholarships. Some scholarships may require additional essays, letters of recommendation, or a statement of purpose.
Deadlines: Scholarship application deadlines vary and are often aligned with the university's admission application deadlines.
Mississippi State University's (MSU) M.S. in Electrical and Computer Engineering program prepares graduates for dynamic and rewarding careers in a wide range of industries. This program equips students with advanced knowledge and skills in electrical and computer engineering, positioning them for success in an ever-evolving technological landscape.
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Electrical Engineer: Graduates often pursue roles as electrical engineers, designing, developing, and maintaining electrical systems, components, and devices in industries such as power generation, electronics, and telecommunications.
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Computer Engineer: Graduates can become computer engineers, specializing in the design and development of computer hardware and software, including computer systems, embedded systems, and microprocessors.
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Software Developer: Graduates with a focus on software engineering can work as software developers, creating and maintaining software applications and systems for a wide range of industries, including technology, finance, and healthcare.
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Control Systems Engineer: Graduates interested in control systems can become control systems engineers, designing and optimizing automated control systems for manufacturing, robotics, and industrial processes.
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Telecommunications Engineer: With expertise in telecommunications, graduates can work in roles related to the design and management of communication networks, including wireless, fiber optic, and satellite systems.
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Embedded Systems Engineer: Graduates often become embedded systems engineers, specializing in the design of embedded hardware and software for applications such as consumer electronics, automotive systems, and IoT devices.
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Network Engineer: Graduates can work as network engineers, configuring and managing computer networks for organizations, ensuring data communication and security.
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Research and Development Engineer: Graduates may pursue careers in research and development (R&D) in industries such as aerospace, defense, and electronics, contributing to innovative projects and cutting-edge technologies.
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Systems Architect: With a focus on systems engineering, graduates can become systems architects, designing complex systems and ensuring that all components work together seamlessly.
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Project Manager: Graduates often transition into project management roles, overseeing engineering projects, coordinating teams, managing budgets, and ensuring projects are completed on time and within scope.
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Electrical Design Engineer: Graduates can work as electrical design engineers, responsible for creating electrical system designs for buildings, infrastructure, and industrial facilities.
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Hardware Engineer: Graduates may specialize in hardware engineering, designing and testing computer hardware components such as microprocessors, memory devices, and circuit boards.
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Quality Assurance Engineer: Graduates with a focus on quality assurance can work as quality engineers, ensuring that engineering processes and products meet quality standards and specifications.
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Consultant: Graduates often become engineering consultants, offering expertise to organizations seeking solutions to technical challenges or improvements in their engineering processes.
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Data Scientist: Graduates with skills in data analysis and machine learning can pursue roles as data scientists, extracting insights from data and contributing to data-driven decision-making in various industries.
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Entrepreneur: Some graduates may choose to start their own technology companies, leveraging their engineering skills to develop innovative products or solutions.
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Academic and Research Positions: Graduates interested in academia and research can pursue Ph.D. programs or work as research associates and faculty members in universities and research institutions.
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Energy Engineer: With a focus on energy systems, graduates can work in roles related to sustainable energy, designing and optimizing renewable energy systems and smart grids.
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Environmental Engineer: Graduates may specialize in environmental engineering, addressing environmental challenges by developing technologies for pollution control and resource conservation.
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Cybersecurity Specialist: Graduates can focus on cybersecurity, protecting organizations' digital assets by identifying vulnerabilities and implementing security measures.
