Advanced Control and Systems Engineering MSc(Eng)
Program Overview
This MSc(Eng) in Advanced Control and Systems Engineering prepares graduates for careers in industry or research. It focuses on enhancing knowledge of modern control and systems engineering principles and practices, developing practical skills in system modeling and optimization. Graduates are equipped to work in advanced manufacturing, robotics, and automation systems, and may pursue further studies in research.
Program Outline
Degree Overview:
This MSc(Eng) in Advanced Control and Systems Engineering is designed for individuals seeking specialization in control and systems engineering. It caters to both those with prior experience and those new to the field.
- To develop practical skills in systems modeling, optimization, signal processing, system identification, digital control systems, and industrial automation.
- To equip students with proficiency in using MATLAB and programmable logic controllers (PLCs).
- To enable students to conduct a research-level dissertation project, advancing their knowledge and skills in systems and control engineering.
Outline:
The program is structured as a 1-year full-time course. It comprises a combination of core and optional modules, culminating in a research-level dissertation project.
Core Modules:
- Foundations of Control Systems (30 credits): This introductory module covers fundamental control and systems engineering concepts, including introductory mathematics and MATLAB, systems modeling and simulation, control systems analysis and design, and digital control systems.
- Optimisation and Signal Processing (15 credits): This module delves into the theory and methods of optimization and signal processing for engineering problems. It covers traditional optimization methods, heuristic methods like evolutionary computing, sampling, digital filters, digital image processing, and analysis methods in both time and frequency domains.
- Modern Control & System Identification (15 credits): This module introduces advanced state-space control systems analysis and design methods for multivariable systems, focusing on linear time-invariant (LTI) systems in the continuous-time domain. It also covers discrete-time and nonlinear cases and explores system identification techniques for estimating dynamical models from input and output observations.
- Advanced Control (15 credits): This module provides an introduction to advanced control techniques used in modern control engineering research and industrial applications. It covers both theory and practice, including analysis and design, and explores different control techniques and applications with a focus on stability, disturbance and noise rejection, and controller design illustrated by case studies.
- Industrial Automation (15 credits): This module focuses on industrial automation, covering topics like sensors, actuators, Human Machine Interfaces (HMI), data gathering and processing, PLC programming, and PID controllers.
- Control Systems Project and Dissertation (60 credits): This project-based module allows students to apply their advanced knowledge and skills to a specific problem or set of problems. It involves developing a project specification, conducting independent research, and demonstrating initiative and project management skills.
Optional Modules (Examples):
- Multisensor and Decision Systems (15 credits): This module explores multisensor and decision systems, covering topics like data integration from multiple sources, decision-making under uncertainty, robustness, reliability, and efficiency enhancement.
- Industrial training programme (ITP) in Advanced Manufacturing (15 credits): This module provides practical experience in advanced manufacturing systems through industry-relevant project work in collaboration with an industrial partner.
- Optimal Control (15 credits): This module teaches optimal controller design, covering concepts like infinite-dimensional optimization, Calculus of Variations, maximum principle, and dynamic programming.
Teaching:
The program employs a variety of teaching methods, including lectures, tutorials, laboratory work, and individual assignments. The faculty comprises experts in the field of control and systems engineering, drawing upon their research and industry experience to deliver the curriculum.
Careers:
Graduates of this program are well-prepared for careers in various industries, including:
- Advanced manufacturing
- Software engineering
- Robotics
- Controls and automation systems engineering They have secured positions at companies such as Tesla, Siemens, Amazon, Huawei, Intel, and Network Rail. The Department of Automatic Control and Systems Engineering is the only department in the UK dedicated to Control and Systems Engineering. It boasts strong links with industry and world-leading research, including the Rolls-Royce University Technology Centre, Sheffield Robotics, and the Insigneo Institute.
- Home (2024 annual fee) : £13,000
- Overseas (2024 annual fee) : £29,700
University of Sheffield
Overview:
The University of Sheffield is a renowned public research university located in Sheffield, England. It is a member of the prestigious Russell Group of leading research-intensive universities in the UK. The university is known for its high-quality teaching, world-class research, and vibrant student life.
Services Offered:
The University of Sheffield offers a wide range of services to its students, including:
Academic Support:
Access to libraries, study spaces, and academic advisors.Career Services:
Guidance on career planning, job searching, and internships.Student Support:
Mental health services, disability support, and financial aid.Accommodation:
On-campus residences and off-campus housing options.Student Life:
A diverse range of clubs, societies, sports teams, and social events.Student Life and Campus Experience:
Students at the University of Sheffield can expect a vibrant and engaging campus experience. The university boasts a strong Students' Union, which is ranked as the best in the UK. Students have access to a wide range of clubs, societies, and sports teams, catering to diverse interests. The city of Sheffield itself offers a lively cultural scene, with numerous museums, theaters, and music venues.
Key Reasons to Study There:
Academic Excellence:
The university consistently ranks highly in national and international rankings, demonstrating its commitment to academic excellence.World-Class Research:
The University of Sheffield is a leading research institution, with a strong reputation for innovation and impact.Vibrant Student Life:
The university offers a rich and diverse student experience, with a strong Students' Union and a wide range of clubs, societies, and sports teams.Supportive Environment:
The university provides a supportive and inclusive environment for all students, with a range of services and resources available to help them succeed.Academic Programs:
The University of Sheffield offers a wide range of undergraduate and postgraduate programs across various disciplines, including:
Arts and Humanities:
English Literature, History, Philosophy, Music, and more.Science and Engineering:
Medicine, Dentistry, Physics, Chemistry, Computer Science, and more.Social Sciences:
Economics, Politics, Sociology, Psychology, and more.Business and Management:
Accounting, Finance, Marketing, and more.Other:
Entry Requirements:
Minimum 2:1 undergraduate honours degree in an engineering or mathematics subject. We may also consider science subjects with a significant amount of programming modules. We may also consider your application if you have a considerable level of relevant professional experience.
Language Proficiency Requirements:
Overall IELTS score of 6.5 with a minimum of 6.0 in each component, or equivalent.
