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BEng (Hons) Robotic and Mechatronic Engineering
Falmer
INTAKE: September
Program Overview
The BEng (Hons) Robotic and Mechatronic Engineering program at the University of Sussex is designed to provide students with a comprehensive understanding of both robotics and mechatronics, combining mechanical, electrical, and computer engineering principles. This program offers students the technical expertise and problem-solving skills necessary to work on cutting-edge technology in fields such as robotics, automation, and intelligent systems. With a focus on practical experience, the program prepares students for the evolving demands of industries such as manufacturing, aerospace, automotive, and healthcare, where automation and robotics are playing an increasingly pivotal role.
Curriculum: The curriculum for the BEng Robotic and Mechatronic Engineering program is structured to provide a strong foundation in core engineering disciplines. In the initial years, students are introduced to subjects like mathematics, physics, programming, control systems, and mechanical design. As the course progresses, students dive deeper into specialized topics such as robotics design, artificial intelligence in robotics, sensor technologies, automation systems, and embedded systems. The final year offers opportunities to engage in advanced project work, where students can apply theoretical knowledge to real-world engineering problems, often involving collaboration with industry partners.
Research Focus: The University of Sussex is a leader in the field of robotics and mechatronics research, with a focus on innovative and applied technologies. Research areas include autonomous systems, human-robot interaction, machine learning applications, and smart manufacturing. The university boasts strong research collaborations with industry partners and cutting-edge facilities that foster an environment of innovation and discovery. Students benefit from exposure to this research environment, with opportunities to engage in research projects and gain insights into the latest advancements in robotics and automation.
Industry Engagement: The program places a strong emphasis on industry engagement through partnerships with leading companies in robotics, mechatronics, and automation. The university’s strong industry ties provide students with the opportunity to work on real-world projects, both during their industrial placements and through collaborative research opportunities. The industrial placement year, a key feature of this program, allows students to gain invaluable professional experience, making them highly attractive to employers upon graduation. This direct link to industry ensures that students are well-prepared for the job market, equipped with both theoretical knowledge and practical skills.
Global Perspective: The BEng Robotic and Mechatronic Engineering program at the University of Sussex is designed to give students a global perspective on engineering and technology. The course emphasizes the international nature of robotics and mechatronics, preparing students to work in multinational teams and tackle global challenges. With opportunities for international collaborations and a curriculum that incorporates global trends in robotics and automation, students are prepared to work in diverse and dynamic environments, making them competitive candidates for positions worldwide.
Location
Falmer
Score
IELTS 6
Tuition Fee
£ 23175
Undergraduate Entry Requirements
Academic Qualifications: Applicants should have successfully completed their secondary education with a minimum overall score of 80% or equivalent in their respective country's grading system.
English language proficiency:
- IELTS: A minimum overall score of 6.0 or 6.5 with no individual component below 5.5.
- TOEFL: A minimum overall score of 80.
- PTE Academic: A minimum overall score of 59.
- Some programs may have specific subject prerequisites or additional requirements.
The University of Sussex offers a range of scholarships and financial support for international students to help make studying in the UK more accessible. These scholarships recognize academic excellence, support for underrepresented groups, and the ambition to help students thrive in their studies.
Sussex International Scholarships: The University offers a range of scholarships specifically for international students, including the Sussex Excellence Scholarships.These awards typically cover a portion of the tuition fees and are available for students pursuing undergraduate or postgraduate degrees.
Specific Country Scholarships: The University also offers country-specific scholarships for students from particular regions, such as Africa, India, and China.These awards are often designed to make studying at Sussex more accessible for students from those regions.
The BEng (Hons) Robotic and Mechatronic Engineering program at the University of Sussex offers graduates a wide range of career opportunities in some of the most dynamic and fast-growing industries. The integration of robotics, mechatronics, and automation technology is transforming sectors like manufacturing, healthcare, automotive, aerospace, and even entertainment. This program equips students with the skills needed to enter these high-demand fields, providing both theoretical knowledge and practical, hands-on experience.
Robotics Engineer: One of the most common career paths for graduates is becoming a robotics engineer. These professionals design and develop robotic systems used in various industries, including manufacturing, healthcare, and defense. Robotics engineers work on creating robots capable of performing tasks autonomously, improving efficiency and safety in various settings.
Mechatronics Engineer: Mechatronics engineers focus on the integration of mechanical, electrical, and computer engineering to develop intelligent systems. Graduates in this field can work on projects such as automated systems, robotic devices, and smart machines. These engineers are essential in industries such as automotive, robotics, consumer electronics, and energy.
Automation Engineer: Automation engineers design systems that control and automate processes within industries like manufacturing, logistics, and energy. Their role is crucial in reducing manual intervention in repetitive tasks, improving the speed and accuracy of processes, and enhancing productivity through the use of automated systems and machinery.
Control Systems Engineer: Graduates who pursue careers as control systems engineers work on the development of systems that control and monitor machinery, such as robotic arms, drones, and industrial robots. They apply control theory to ensure these machines operate safely, effectively, and efficiently, often in complex and dynamic environments.
Embedded Systems Engineer: Embedded systems engineers develop the software and hardware that controls devices such as medical equipment, robotics, and industrial machinery. This field combines software engineering with hardware design to create specialized systems that perform specific tasks in real-time.
Systems Engineer: Systems engineers design and manage complex engineering systems that integrate various components, including robotic and mechatronic systems. They ensure that all parts of a system work seamlessly together, which is crucial in industries such as aerospace, telecommunications, and defense.
Product Design Engineer: In this role, graduates focus on designing innovative products, often integrating mechatronics or robotics. They work in industries like consumer electronics, medical devices, and automotive design, creating products that enhance functionality, reliability, and user experience.
Aerospace Engineer: For those with an interest in aviation and space exploration, a career in aerospace engineering is a natural path. Graduates can work on projects such as autonomous drones, satellite systems, and even spacecraft, applying mechatronics and robotics principles to create high-tech solutions for the aerospace sector.
Healthcare Technology Engineer: Robotics and mechatronics play an increasing role in healthcare, with applications in surgery, rehabilitation, and medical devices. Graduates can pursue careers in designing and developing medical robots, prosthetics, and rehabilitation technologies, helping improve patient outcomes and the quality of care.
Research and Development Engineer: Some graduates may choose to enter the field of research and development, working to create new technologies and improve existing ones. This could involve developing new algorithms for robotics, designing more efficient mechatronic systems, or innovating in areas such as smart manufacturing.
