MRes Leadership and Strategy
The University of Greater Manchester offers a wide array of undergraduate and postgradu...
MSc Robotics, Autonomous Systems and Telecommunications
Bolton
INTAKE: January
Program Overview
The MSc in Robotics, Autonomous Systems and Telecommunications program with a January start at the University of Greater Manchester provides a focused and in-depth study of these interconnected engineering disciplines, consistent with the September intake. This alternative start date offers flexibility for students while maintaining the program's rigorous academic standards and learning outcomes. The program aims to develop graduates who are equipped with the specialized knowledge and analytical skills necessary to address complex engineering challenges in areas such as robot design, autonomous vehicle development, and advanced communication networks. It combines taught modules with a significant individual or group project, providing a comprehensive learning experience.
Curriculum: The curriculum for the MSc in Robotics, Autonomous Systems and Telecommunications (Jan Start) is designed to provide a strong theoretical foundation alongside practical skills development, mirroring the September intake. Core modules typically cover areas such as robot kinematics and dynamics, artificial intelligence for robotics and autonomous systems, sensor fusion and perception, communication theory and systems, digital signal processing, and network technologies. Students may have opportunities to specialize through elective modules in areas like mobile robotics, embedded systems, or advanced telecommunications. A significant component of the program remains the individual or group project, allowing students to apply their knowledge and skills to a specific engineering problem, regardless of their start date.
Research Focus: The MSc in Robotics, Autonomous Systems and Telecommunications program, including the January start cohort, benefits from the active research environment within the University of Greater Manchester across various fields related to robotics, autonomous systems, and telecommunications. Faculty engaged in research areas such as intelligent robotics, autonomous vehicles, wireless communication, and signal processing often contribute to the program's content and supervise student projects. The January start students have the same opportunities to engage with current research trends and methodologies within the field, fostering a culture of inquiry and innovation in their learning.
Industry Engagement: The University of Greater Manchester maintains strong links with industries related to robotics, automation, autonomous systems, and telecommunications, and this engagement extends to students starting in January. Opportunities may include guest lectures from industry professionals, case studies based on real-world engineering problems, visits to relevant industrial facilities, and potential for collaborative projects or internships. The program aims to equip graduates with the practical skills and industry insights that are highly valued by employers in these rapidly evolving sectors, regardless of their intake date. Networking opportunities with industry professionals are also typically available throughout the academic year.
Global Perspective: Robotics, autonomous systems, and telecommunications are inherently global fields, with international research collaborations, global markets, and worldwide applications. The MSc program, regardless of the start date, incorporates a global perspective by examining international standards and practices, exploring global technological trends, and considering the impact of these technologies on societies worldwide. The diverse student body, including international students, also contributes to a broader understanding of global perspectives within these fields, regardless of their intake date.
Location
Bolton
Score
IELTS 6.5
Tuition Fee
£ 15950
Postgraduate Entry Requirements
Academic Qualifications: 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:
- IELTS: A minimum overall score of 6.5 or 7.0 with no individual component below 6.0.
- TOEFL: A minimum overall score of 79.
- PTE Academic: A minimum overall score of 59.
- Some postgraduate programs may have specific subject prerequisites or additional requirements.
The University of Greater Manchester offers a variety of scholarships to support international students in financing their education. These scholarships are designed to reward academic excellence and assist students in pursuing their studies in the UK.
Global Futures Scholarships: The university provides the Global Futures Scholarships, which offer financial support to international students. These scholarships are available to both undergraduate and master's students holding an offer for full-time study on campus in Manchester.
Equity and Merit Scholarships: The university offers Equity and Merit Scholarships to academically excellent international students. These scholarships are available to postgraduate taught students commencing their studies. The scholarships aim to support students who demonstrate strong academic performance and their chosen field of study.
Engineering the Future Scholarships: The School of Engineering at the University of Greater Manchester provides scholarship awards to academically excellent international students commencing their postgraduate taught studies. These scholarships aim to support students pursuing careers in engineering and related fields.
Graduates from the MSc Robotics, Autonomous Systems and Telecommunications program at the University of Greater Manchester, including those who commenced their studies in January, acquire a highly sought-after and interdisciplinary skillset, opening doors to cutting-edge careers across several rapidly growing sectors.
Robotics Engineer: Graduates can design, develop, test, and deploy robots for various applications in manufacturing, healthcare, logistics, and exploration.
Autonomous Systems Engineer: Graduates can work on the development of autonomous vehicles (cars, drones, etc.), including perception, planning, and control systems.
Telecommunications Engineer: Graduates can design, implement, and manage communication networks, including mobile, wireless, and fiber optic systems.
AI and Machine Learning Engineer (Robotics/Autonomous Systems): Graduates can develop and implement AI algorithms for robot control, autonomous navigation, and intelligent decision-making.
Embedded Systems Engineer: Graduates can design and program the embedded software and hardware that control robots, autonomous systems, and telecommunications devices.
Sensor Fusion Engineer: Graduates can work on integrating data from multiple sensors (cameras, lidar, radar, etc.) to create a comprehensive understanding of the environment for autonomous systems.
Network Engineer: Graduates can design, build, and maintain the communication infrastructure that supports robotic and autonomous systems, as well as general telecommunications.
Signal Processing Engineer: Graduates can develop algorithms for processing signals from sensors and communication systems, improving performance and extracting valuable information.
Research and Development Engineer: Graduates can pursue careers in academia or industry, contributing to the advancement of robotics, autonomous systems, and telecommunications technologies.
Project Manager (Robotics, Autonomous Systems, Telecommunications): With a strong technical foundation and management skills, graduates can lead and oversee complex projects in these rapidly evolving fields.
