MBM Master of Business Management
The MBM program at the University of Essex is designed to develop well-rounded business...
BEng Mechatronic Systems
Colchester Campus
INTAKE: October
Program Overview
The BEng Mechatronic Systems program at the University of Essex integrates mechanical engineering, electronic engineering, computer science, and control engineering to develop graduates with a comprehensive understanding of complex systems. This interdisciplinary program equips students with the knowledge and skills to design, build, and control intelligent machines and systems used in various industries such as manufacturing, automotive, aerospace, robotics, and automation. Through hands-on projects and industry placements, students learn to apply theoretical principles to real-world engineering challenges, preparing them for careers at the forefront of technological innovation.
1. Core Engineering Principles: The program provides a solid foundation in core engineering principles, including mechanics, electronics, mathematics, and computer programming. Students gain a thorough understanding of fundamental concepts such as kinematics, dynamics, circuit theory, and signal processing.
2. Mechatronic Design and Integration: Students learn to design and integrate mechanical, electronic, and computer components to create mechatronic systems. They study topics such as sensors and actuators, microcontrollers, embedded systems, and system integration techniques.
3. Robotics and Automation: The curriculum covers robotics and automation technologies, including robot kinematics, dynamics, control algorithms, and motion planning. Students develop practical skills in robot programming, sensor fusion, and machine vision.
4. Control Systems Engineering: Students delve into control systems engineering, learning about feedback control theory, PID controllers, state-space representation, and system stability analysis. They design and implement control algorithms for mechatronic systems to achieve desired performance objectives.
5. Industrial Applications and Industry 4.0: The program explores industrial applications of mechatronic systems, including advanced manufacturing processes, automated production lines, and smart factories. Students learn about Industry 4.0 technologies such as Internet of Things (IoT), cyber-physical systems, and digital twins.
6. Project-Based Learning: Students engage in project-based learning activities, collaborating in teams to design, build, and test mechatronic systems. They apply theoretical knowledge to practical projects, gaining hands-on experience in problem-solving, prototyping, and project management.
7. Industry Placements and Internships: The program offers opportunities for industry placements and internships, allowing students to gain practical experience in real-world engineering environments. They work alongside professionals in industry sectors such as automotive, aerospace, manufacturing, and robotics.
8. Professional Skills Development: Students develop professional skills essential for successful engineering careers, including communication, teamwork, leadership, and project management. They learn to communicate technical concepts effectively, work collaboratively in multidisciplinary teams, and manage engineering projects from conception to completion.
9. Research and Innovation: Students are encouraged to engage in research and innovation, exploring emerging technologies and conducting independent projects in areas such as autonomous systems, machine learning, and human-robot interaction. They have access to state-of-the-art facilities and research centers for experimentation and exploration.
10. Career Opportunities: Graduates of the BEng Mechatronic Systems program are well-equipped for careers in diverse industries such as robotics, automation, automotive engineering, aerospace, manufacturing, and renewable energy. They can work as mechatronics engineers, automation specialists, robotics engineers, control systems engineers, or research and development engineers, contributing to the design, development, and implementation of innovative mechatronic solutions to address global challenges.
Location
Colchester Campus
Score
IELTS: 6
Tuition Fee
£ 20650
Undergraduate Entry Requirements
Academic Qualifications: Applicants should have successfully completed their secondary education with a minimum overall score of 70 to 75% or equivalent in their respective country's grading system.
English language proficiency:
- IELTS: A minimum overall score of 6.0 with no individual component below 5.5.
- TOEFL: A minimum overall score of 75.
- PTE Academic: A minimum overall score of 51.
Students must provide:
- academic marksheets & transcripts
- letters of recommendation
- a personal statement - SOP
- passport
- other supporting documents as required by the university.
It is important to note that entry requirements may vary across different programs and courses. Additionally, meeting the minimum entry requirements does not guarantee admission, as the university considers factors such as the number of available places and competition for certain courses.
The University of Essex offers a range of scholarships and financial support options to assist students in their academic journey. These scholarships are designed to recognize and reward academic excellence, promote diversity and inclusion, and provide assistance to those facing financial challenges.
Academic Excellence Scholarships: The university offers scholarships to outstanding students who demonstrate exceptional academic achievements. These scholarships are typically merit-based and provide financial support towards tuition fees or living expenses.
International Scholarships: The University of Essex provides scholarships specifically designed for international students. These scholarships aim to attract and support talented students from around the world. Eligibility criteria and award amounts may vary, and they may cover a portion of tuition fees or provide assistance with living expenses.
Subject-specific Scholarships: Some departments and schools within the university offer scholarships tailored to specific academic disciplines. These scholarships are often awarded to students with exceptional academic records or those who demonstrate a strong commitment to their field of study.
Access and Participation Scholarships: The university is committed to promoting diversity and inclusion. It offers scholarships and financial support to students from underrepresented backgrounds, including those from low-income families or individuals who are the first in their family to attend university.
Government-funded Scholarships: In addition to internal scholarships, the University of Essex provides information and guidance on scholarships and funding opportunities offered by external organizations and government agencies. These scholarships may be available to students based on factors such as nationality, field of study, or research interests.
Sports Scholarships: The university recognizes the importance of sports and offers scholarships to talented athletes who demonstrate exceptional sporting abilities. These scholarships provide financial support along with access to sports facilities, training programs, and dedicated support services.
It is important to note that scholarship availability, eligibility criteria, and application processes may change over time.
Graduates of the BEng Mechatronic Systems program at the University of Essex have diverse career opportunities in engineering fields such as mechatronics, robotics, automation, automotive, manufacturing, renewable energy, and research and development. Their interdisciplinary skill set, combining mechanical, electronic, and computer engineering knowledge, equips them for roles that require innovation, problem-solving, and expertise in integrating complex systems. The program's practical approach, industry placements, and strong industry connections prepare graduates to excel in dynamic and evolving engineering sectors, contributing to technological advancements and driving innovation in the global marketplace.
1. Mechatronics Engineer: Graduates can pursue roles as mechatronics engineers, designing and developing intelligent systems that integrate mechanical, electronic, and computer components. They work in industries such as robotics, automotive, aerospace, manufacturing, and renewable energy, creating innovative solutions to complex engineering challenges.
2. Robotics Engineer: With expertise in robotics and automation, graduates can specialize as robotics engineers. They design and program robotic systems for various applications, including industrial automation, healthcare robotics, autonomous vehicles, and smart devices. Robotics engineers collaborate with interdisciplinary teams to enhance efficiency and productivity in diverse sectors.
3. Control Systems Engineer: Graduates can work as control systems engineers, focusing on designing and implementing control algorithms for mechatronic systems. They optimize system performance, ensure stability and reliability, and contribute to the development of advanced control strategies used in manufacturing, process automation, and autonomous systems.
4. Automation Specialist: Automation specialists apply their knowledge of mechatronics and industrial automation to streamline production processes and optimize manufacturing operations. They design and deploy automated systems, including robotic assembly lines, PLC-based control systems, and IoT-enabled smart factories, to improve efficiency and reduce costs.
5. Embedded Systems Developer: Graduates can specialize in embedded systems development, designing and programming microcontroller-based systems for specific applications. They work on projects involving sensor integration, real-time data processing, and IoT device development, contributing to advancements in smart devices and connected technologies.
6. Automotive Engineer: Mechatronic systems graduates can pursue careers in automotive engineering, focusing on vehicle electrification, autonomous driving systems, and advanced driver-assistance technologies. They contribute to the design and development of next-generation vehicles, integrating electronic control systems with mechanical components.
7. Research and Development (R&D) Engineer: Graduates interested in innovation and technology advancement can work as R&D engineers. They conduct research, experiment with emerging technologies, and develop prototypes of novel mechatronic systems. R&D engineers contribute to product innovation, process improvement, and technology commercialization.
8. Manufacturing Engineer: Mechatronic systems graduates play key roles in manufacturing engineering, optimizing production processes, and implementing automation solutions. They collaborate with production teams to enhance quality, reduce downtime, and increase throughput using advanced mechatronic technologies.
9. Renewable Energy Specialist: With a focus on sustainable technologies, graduates can work as renewable energy specialists. They design and optimize mechatronic systems for renewable energy generation, storage, and distribution, contributing to the transition towards clean energy solutions.
10. Consulting and Project Management: Graduates with strong analytical and problem-solving skills can pursue careers in engineering consulting and project management. They provide technical expertise, manage engineering projects, and advise clients on mechatronic solutions tailored to their specific needs and requirements.
