BEng Hons Aerospace Engineering
The BEng Hons Aerospace Engineering program at the University of Surrey is designe...
Guilford - UK
INTAKE: September
The BEng Hons Electronic Engineering with Space Systems program at the University of Surrey aims to equip students with a strong foundation in electronic engineering principles and their applications in the design, development, and operation of space systems. This program focuses on the intersection of electronic engineering and space technology, providing students with specialized knowledge and skills in this exciting and rapidly evolving field.
Core Engineering Fundamentals: The program begins with a solid grounding in core engineering principles, including mathematics, physics, and foundational electronic engineering concepts. This foundation enables students to develop a comprehensive understanding of the underlying principles of electronic engineering.
Specialized Space Systems Modules: As students progress through the program, they undertake specialized modules specifically tailored to space systems. These modules cover a range of topics such as satellite communication systems, spacecraft design and operation, space instrumentation, remote sensing, and space mission planning. The program ensures a balance between theoretical knowledge and practical application.
Laboratory Work and Practical Projects: Practical learning is a key aspect of the program. Students have access to state-of-the-art laboratories and facilities, including satellite communication and tracking systems, mission control simulators, and space instrumentation. They engage in hands-on laboratory work and practical projects, applying their knowledge to real-world challenges in space systems engineering.
Industry-Relevant Skills: The program emphasizes the development of industry-relevant skills, including circuit design, signal processing, programming, data analysis, and systems integration. Students gain proficiency in using industry-standard software tools and simulation techniques to design and analyze electronic systems for space applications.
Collaboration with Space Industry: The University of Surrey has established strong connections with the space industry, including collaborations with leading space agencies, research institutions, and commercial aerospace companies. This allows students to benefit from guest lectures, industry-led projects, and potential internship opportunities, enhancing their understanding of the industry and providing valuable networking opportunities.
Space Surrey: The University of Surrey is home to Space Surrey, a world-leading center for small satellite design and technology. Students may have the opportunity to work on real satellite projects, gaining hands-on experience in satellite design, testing, and operations, further enhancing their practical skills and industry readiness.
Guilford - UK
IELTS 6
£ 23800
Undergraduate Entry Requirements:
Students must provide:
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.
The University of Surrey offers a range of scholarships and financial aid options to support students in their academic journey. These scholarships are designed to recognize excellence, provide access to education, and support students in achieving their educational goals.
Graduates of the BEng Hons Electronic Engineering with Space Systems program from the University of Surrey have excellent career prospects in the aerospace and space industries. They can pursue a variety of roles, including:
Satellite Systems Engineer: Graduates can work in the design, development, and testing of satellite systems, including communication satellites, Earth observation satellites, and navigation systems. They use their expertise in electronic engineering to ensure the proper functioning and reliability of satellite systems.
Mission Control Engineer: Graduates can contribute to mission control operations, responsible for monitoring and controlling satellite missions. They work with ground stations, analyze telemetry data, and ensure the success of satellite operations.
Spacecraft Instrumentation Engineer: Graduates can specialize in the design and development of instrumentation systems for spacecraft. They work on sensor integration, data acquisition, and analysis systems used in space missions.
Space Systems Integration Engineer: Graduates can work in the integration and testing of space systems, ensuring their compatibility and performance. They collaborate with multidisciplinary teams to ensure the successful integration of electronic systems into spacecraft.
Research and Development: Graduates can contribute to research and development in the field of space systems, working in academic institutions, research laboratories, or government agencies. They explore innovative technologies, improve existing systems, and push the boundaries of space exploration.