MBA Master of Business Administration
The MBA program at the University of Sheffield offers a comprehensive curriculum design...
Western Bank-The University of Sheffield
INTAKE: Jan & Sept
The MSc Advanced Control and Systems Engineering (with Industrial Management) at the University of Sheffield is an advanced postgraduate program that merges engineering principles with management strategies, providing students with a unique skill set tailored for leadership roles in control systems and automation. This program is designed for those who aspire to gain deep technical expertise in control systems while also developing the managerial skills necessary for overseeing complex industrial projects. Students will gain an in-depth understanding of advanced control techniques, systems theory, and automation, alongside valuable knowledge of industrial management, project management, and organizational leadership.
Curriculum: The curriculum of the MSc Advanced Control and Systems Engineering (with Industrial Management) offers a blend of specialized engineering modules and management-focused courses. Core modules include advanced control systems, systems modeling, robotics, and digital control, providing students with a solid foundation in technical aspects. In addition, the program features management-oriented modules such as project management, business strategy, and operations management, ensuring that students can integrate technical knowledge with efficient industrial practices. Practical learning is emphasized through hands-on labs, group projects, and case studies, equipping students to apply theoretical concepts to real-world engineering challenges. This multidisciplinary approach ensures that graduates are not only skilled engineers but also capable leaders in the industrial sector.
Research Focus: The University of Sheffield is renowned for its research in control systems, systems engineering, and industrial management. Students in this program benefit from the university’s strong research culture, with opportunities to engage in cutting-edge projects within fields such as autonomous systems, robotics, industrial automation, and smart manufacturing. The Department of Automatic Control and Systems Engineering collaborates with industry leaders to conduct pioneering research, offering students access to state-of-the-art laboratories and real-time industry data. Additionally, research in industrial management focuses on optimizing processes, improving productivity, and enhancing organizational performance, making this program ideal for students interested in the intersection of technology and business.
Industry Engagement: The MSc Advanced Control and Systems Engineering (with Industrial Management) program at the University of Sheffield places a strong emphasis on industry engagement. Through partnerships with leading global companies, students gain access to real-world projects, internships, and networking opportunities that help them build industry connections. The program incorporates industry-focused seminars, guest lectures from experts in the field, and hands-on experience in collaboration with industrial partners. This exposure ensures that students not only learn the latest technological advancements in control systems but also understand how to manage and optimize industrial processes effectively. The program prepares graduates to excel in a variety of sectors, including aerospace, robotics, automotive, and energy.
Global Perspective: The University of Sheffield’s MSc program offers a global perspective by drawing on the university’s international network of students, researchers, and industry partners. Students come from diverse backgrounds, enriching the learning environment and fostering a cross-cultural approach to problem-solving. The curriculum includes international case studies, providing insights into the application of control systems and industrial management in different regions and industries. Moreover, the program’s emphasis on global industry collaborations and research partnerships ensures that students are prepared to work on international projects and are well-versed in the global trends and challenges shaping the future of control engineering and industrial management.
Western Bank-The University of Sheffield
IELTS: 6.5
£ 29700
Postgraduate Entry Requirements:
Students must provide:
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.
Postgraduate students may be eligible for the following scholarships:
Postgraduate Taught Merit Scholarship: This scholarship is available to UK, EU, and international students who have a conditional or unconditional offer to study a full-time or part-time postgraduate taught course at the University of Sheffield. The scholarship is worth 50% of the tuition fee for each year of study.
International Merit Postgraduate Taught Scholarship: This scholarship is available to international students who have a conditional or unconditional offer to study a full-time postgraduate taught course at the University of Sheffield. The scholarship is worth 50% of the tuition fee for each year of study.
Commonwealth Shared Scholarship Scheme: This scholarship is available to students from eligible developing Commonwealth countries who have a conditional or unconditional offer to study a full-time postgraduate taught course at the University of Sheffield. The scholarship covers the full tuition fee, airfare to and from the UK, and a monthly stipend.
The MSc Advanced Control and Systems Engineering (with Industrial Management) program at the University of Sheffield prepares graduates for a wide range of career opportunities in control and systems engineering, as well as industrial management.
Control Systems Engineer: Graduates can pursue careers as control systems engineers, designing, implementing, and optimizing advanced control systems for various industries such as manufacturing, robotics, automotive, aerospace, and energy. They can work on projects involving automation, robotics, process control, and mechatronics.
Systems Integration Engineer: Graduates can work as systems integration engineers, specializing in integrating complex engineering systems and ensuring their efficient and seamless operation. They may be involved in integrating control systems, sensors, actuators, and software to create integrated solutions for industrial processes.
Industrial Project Manager: With the combination of technical knowledge in control systems and skills in industrial management, graduates can take up managerial roles, leading engineering projects and teams. They can oversee project planning, resource allocation, budgeting, and implementation, ensuring projects are delivered on time and within budget.
Automation and Robotics Specialist: Graduates can work in the field of automation and robotics, focusing on the design, development, and implementation of robotic systems and automation solutions in industrial environments. They may be involved in areas such as robotic process automation, autonomous systems, and intelligent control.
Process Engineer: Graduates can pursue careers as process engineers, working on improving industrial processes, optimizing efficiency, and ensuring quality control. They may be involved in process modeling, simulation, and optimization to enhance productivity, reduce costs, and minimize waste.
Industrial Consultant: Graduates can work as consultants, providing expertise in advanced control systems and industrial management to organizations. They can assist companies in improving their control systems, optimizing processes, and implementing best practices in industrial management.
Research and Development: Graduates may choose to pursue research and development roles in academia, industry, or research institutions. They can contribute to advancing the field of control and systems engineering through innovative research, developing new technologies, and solving complex engineering challenges.
Entrepreneurship: Graduates with an entrepreneurial mindset may choose to start their own technology-focused businesses, leveraging their expertise in control systems and industrial management to develop innovative solutions for industrial applications.