MSc Advanced Electronic and Electrical Engineering

Postgraduate Entry Requirements:

• Applicants should have successfully completed a bachelor's degree or its equivalent from a recognized institution with a minimum overall score of 60% or equivalent.
• English language proficiency is required, and applicants must provide evidence of their English language skills through an approved language test.
  • IELTS: A minimum overall score of 6.5 with no individual component below 6.0.
  • TOEFL: A minimum overall score of 92, with at least with at least 17 in Listening, 18 in Reading, 20 in Speaking, and 21 in Writing.
  • PTE Academic: A minimum overall score of 71 with 65 in Writing, and 59 in Reading, Listening and Speaking..
• Some postgraduate programs may have specific subject prerequisites or additional requirements.

Students must provide:

• academic marksheets & transcripts
• letters of recommendation
• a personal statement - SOP
• passport
• other supporting documents as required by the university.

Work experience: Some postgraduate courses may require relevant work experience in the field.

It is important to note that meeting the minimum entry requirements does not guarantee admission, as the university considers factors such as availability of places and competition for the program. Additionally, some courses may have higher entry requirements or additional selection criteria, such as interviews or portfolio submissions.

Queen Mary University of London offers a range of scholarships and bursaries to its students. 

1. Queen Mary Principal's Scholars Program: A scholarship program for undergraduate students who have an offer of admission from Queen Mary University of London and have achieved exceptional academic grades. The scholarship covers full tuition fees for three years of study, as well as a £2,000 annual stipend for living expenses.
2. Queen Mary International Excellence Scholarships: A scholarship program for international undergraduate and postgraduate students who have an offer of admission from Queen Mary University of London and have demonstrated academic excellence. The scholarship covers full tuition fees for one year of study.
3. Queen Mary Law Scholarships: A scholarship program for undergraduate and postgraduate law students who have an offer of admission from Queen Mary University of London and have demonstrated academic excellence. The scholarship covers full or partial tuition fees, depending on the level of academic achievement.
4. Queen Mary Engineering and Materials Science Scholarships: A scholarship program for undergraduate and postgraduate students studying engineering or materials science who have an offer of admission from Queen Mary University of London and have demonstrated academic excellence. The scholarship covers full or partial tuition fees, depending on the level of academic achievement.

The MSc Advanced Electronic and Electrical Engineering program at Queen Mary University of London prepares students for a wide range of exciting career opportunities in the field of electronic and electrical engineering. Graduates of this program possess advanced technical knowledge and practical skills that are highly sought after by industries at the forefront of technological innovation.  

1. Electronics and Telecommunications Industry: Graduates can find employment in the electronics and telecommunications industry, working for companies involved in the design, development, and manufacturing of electronic devices, telecommunications systems, and integrated circuits. They can contribute to the development of cutting-edge technologies such as 5G networks, Internet of Things (IoT) devices, wireless communication systems, or consumer electronics.

2. Renewable Energy Sector: With the increasing demand for clean and sustainable energy solutions, graduates can pursue careers in the renewable energy sector. They can work on the design, installation, and maintenance of renewable energy systems such as solar power, wind power, or energy storage systems. They may be involved in developing smart grid technologies or optimizing the efficiency of power generation and distribution systems.

3. Power and Energy Engineering: Graduates can work in the field of power and energy engineering, contributing to the design and operation of electrical power systems, including power generation, transmission, and distribution. They can work on projects related to energy efficiency, grid stability, power electronics, or renewable energy integration. They may find employment with power utilities, engineering consultancy firms, or research institutions.

4. Robotics and Automation: Graduates can pursue careers in the rapidly growing field of robotics and automation. They can work on the development of autonomous systems, industrial robotics, or intelligent control systems. They may find employment in sectors such as manufacturing, aerospace, healthcare, or logistics, where automation technologies are revolutionizing processes and improving efficiency.

5. Research and Development: The program provides a strong foundation for graduates interested in pursuing research and development careers. They can work as research engineers or scientists in both academic and industrial research institutions. They can contribute to the advancement of electronic and electrical engineering by developing new technologies, conducting experiments, and pushing the boundaries of innovation.

6. Consultancy and Engineering Services: Graduates can work for engineering consultancy firms, providing specialized expertise and technical solutions to clients in various industries. They can be involved in consulting projects related to electronic systems design, energy management, or technical feasibility studies. They may offer their expertise in areas such as wireless communication, signal processing, or embedded systems design.

7. Aerospace and Defense: Graduates can find employment in the aerospace and defense sector, working on the design and development of electronic systems for aircraft, satellites, or defense systems. They can contribute to avionics, communication systems, radar technologies, or electronic warfare systems. They may work for aerospace companies, defense contractors, or government research agencies.

8. Semiconductor Industry: Graduates can work in the semiconductor industry, which plays a critical role in the development of electronic devices and integrated circuits. They can contribute to the design, fabrication, and testing of semiconductor components and chips. They may work in research and development, process engineering, or quality control roles in semiconductor manufacturing companies.

9. Entrepreneurship and Innovation: Some graduates may choose to start their own technology-based ventures or join startups in the field of electronics and electrical engineering. They can develop innovative solutions, launch new products, or provide specialized consulting services. They may explore opportunities in areas such as wearable technology, Internet of Things (IoT), or smart home systems.

10. Higher Education and Academia: Graduates can pursue further studies at the doctoral level and contribute to academic research and teaching in the field of electronic and electrical engineering. They can work as research associates, teaching assistants, or pursue faculty positions in universities and research institutions, sharing their knowledge and mentoring future engineers.

The MSc Advanced Electronic and Electrical Engineering program equips students with the necessary skills and knowledge to excel in these dynamic and diverse career paths. Graduates have excellent prospects for professional growth and making significant contributions to technological advancements in various industries.