View all Master of Science Programs in Automation in United Kingdom
The academic area of automation encompasses a variety of knowledge and skills involved with the automated control of different machines and systems. University programs usually have a general approach or focus on a particular specialization, such as industry applications or computer technology.
Education in the United Kingdom is a devolved matter with each of the countries of the United Kingdom having separate systems under different governments: the UK Government is responsible for England, and the Scottish Government, the Welsh Government and the Northern Ireland Executive are responsible for Scotland, Wales and Northern Ireland, respectively.
Master of Science (MSc) in Automation in United Kingdom
Our course will help you take your career forward in an innovative and developing area of engineering. It balances advanced theory with technical skills so that you can l
Learn the essential skills and techniques needed to develop autonomous systems, embedded artificial intelligence, and robotics.
This course is new for 2018
Our course will help you take your career forward in an innovative and developing area of engineering. It balances advanced theory with technical skills so that you can learn to develop complete operational systems. Our course is suited to you if you have a background in electronic and electrical engineering, computer science or a related discipline.
During the course, you will gain a comprehensive understanding of how to research, design and develop systems. You’ll explore robotics engineering and software, autonomous systems technologies, processes and products throughout the industry value chain. Other areas you will cover include computational intelligence, machine learning, and sensors....
You will learn to use new knowledge to solve complex machine learning and autonomous systems problems. You’ll develop a range of skills including the theory of machine le
Learn how to research, design and develop machine learning and autonomous systems technologies. You’ll be prepared for a wide range of careers in industry.
Intelligent and autonomous systems are increasingly important in all areas of human life and activity from medicine and space exploration to agriculture and entertainment.
Understanding and developing autonomous systems involves a range of skills and knowledge including designing interactive systems with both human and machine elements, and modeling and building systems that can sense and learn.
Machine learning is at the heart of autonomous and intelligent systems, including computer vision and robotics. It also underpins the recent developments in data analytics across many fields....
This MSc focuses on state-of-the-art technologies for autonomous control and machine learning with applications in robotics, sensor networks, big data analytics, and auto
Why this course?
This MSc focuses on state-of-the-art technologies for autonomous control and machine learning with applications in robotics, sensor networks, big data analytics, and autonomous agents.
Emphasis is given to topics that support a new emerging generation of self-sustaining and intelligent devices created for the Internet of Things, Ubiquitous Computing, and Industry 4.0 environments.
This degree is designed to provide a wide-ranging background in autonomous technologies that can be applied in a variety of disciplines.
In addition to traditional technologies related to robotics, embedded systems, design, and control, students will be exposed to system-level design methods and state-of-the-art theory behind some of the newest and most promising fields of artificial intelligence....
This course provides you with a broad introduction to the issues encountered and techniques required in developing advanced mechatronic products and automation systems. M
MSc/PgDip/PgCert in Mechatronics & Automation
This course provides you with a broad introduction to the issues encountered and techniques required in developing advanced mechatronic products and automation systems.
Mechatronics and automation is becoming an increasingly important discipline in today’s digital society. New products have been designed applying mechatronic principles. Consumers and society have benefited tremendously from these new intelligent products that include:
the latest mobile phones with mechatronic features
intelligent robotic vacuum cleaners
This course trains you to:
lead mechatronic and automation product development
contribute as team members to future mechatronic product development
provide expertise as mechatronic “specialists”
The MSc Robotics and Autonomous Systems is designed to equip students with the advanced knowledge and skills to develop the innovative solutions required by the rapidly e
The MSc Robotics and Autonomous Systems is designed to equip students with the advanced knowledge and skills to develop the innovative solutions required by the rapidly emerging global industry in Robotics and Autonomous Systems (RAS).
The programme aims to provide the opportunity to enhance and apply students' existing knowledge of computer programming and mathematical frameworks through laboratory workshops, lectures, debates and independent research.
The course assumes a familiarity with programming concepts and the supporting mathematical framework while presenting advanced concepts relating specifically to the computing domain.
How You Study
Students on this programme can experience a blend of different teaching and learning approaches. The programme aims to enable the development of skills through practical workshops in the laboratory, and academic knowledge through debate, lectures, discussion, and personal research....
Automation, control and robotics are pervasive enabling technologies found in almost every modern technical system, particularly in manufacturing and production. They com
Automation, control and robotics are pervasive enabling technologies found in almost every modern technical system, particularly in manufacturing and production. They combine the diverse and rapidly expanding disciplines of automation, control, mechanics, software and signal processing.
Develop your knowledge and understanding of classical and modern control theory, industrial automation, systems analysis, design and simulation as well as robotics.
Gain the ability to apply principles of modelling, classical and modern control concepts and controller design packages.
Learn how to design and exploit automation and robotic systems in a range of manufacturing and industrial applications in state-of-the-art facilities such as the first SAP-Industry 4.0 lab in the UK and the Festo process control equipment using Siemens PLC.
Work alongside research staff from the Power, Electrical and Control Engineering, and Electronic Engineering subject groups and the Centre for Automation and Robotics Research.
The University of Warwick, Warwick Manufacturing Group WMG
This degree is designed for engineering or STEM subject graduates. It is particularly suitable for those with a background in electronics, electrical engineering, control
This degree is designed for engineering or STEM subject graduates. It is particularly suitable for those with a background in electronics, electrical engineering, control systems, or communications who want to play a role in the development of connected and autonomous vehicles, and the Intelligent Transportation Systems Network.
With the advent of smart, connected and autonomous vehicles on the horizon of technical advancements, the automotive industry is facing a developmental challenge. How do we develop a robust technical infrastructure to support the anticipated explosive growth in smart vehicular functions, communications systems and driverless cars? This demands a comprehensive understanding of the technology and a bottom-up approach ensuring robustness and dependability of Electronics, Communications (e.g. V-2-V, V-2-I) and Control Systems. Through this MSc, we aim to address the knowledge-gap in the areas of machine learning, automated control strategies, connectivity, and communication infrastructure, cybersecurity protocols, emerging automotive networks and robust automotive embedded systems within the context of smart, connected and autonomous vehicles....