Scientific Computing and Data Analysis (Computer Vision and Robotics) MSc

Developments in fields such robotics, physics, engineering, earth sciences or finance are increasingly driven by experts in computational techniques. Those with the skills to write code for the most powerful computers in the world and to process the biggest data sets in the world can truly make a difference.<br/><br/>Our suite of Masters in Scientific Computing and Data Analysis (MISCADA) offers an application-focused course to deliver these skills with three interwoven strands:<br/><br/><br/>- Computer Science underpinnings of scientific computing (algorithms, data structures, implementation techniques, and computer tool usage)<br/><br/><br/>- Mathematical aspects of data analysis and the simulation and analysis of mathematical models<br/><br/><br/>- Implementation and application of fundamental techniques in an area of specialisation (as well as Computer Vision and Robotics we offer options in Astrophysics, Earth and Environmental Sciences, or Financial Technology)<br/><br/><br/>The MISCADA specialist qualification in Computer Vision and Robotics is designed to equip you with the background knowledge and skills to address some of the biggest research questions in computer vision and robotics, such as how we can develop future mobility solutions which combine autonomy with safety and reliability. The course explores areas such as computer vision, machine learning, robotic motion and planning, as well as reinforcement learning.<br/><br/>There’s great synergy between the modules and you will be given plenty of opportunities to put your learning into practice from the start of the course. Our research-led approach allows you to take some of the newest theoretical ideas and directly translate them into working codes in their respective application areas. If you have an undergraduate degree in a science subject with a strong quantitative element, including computer science and mathematics and want to work at the highest level in computer vision and robotics, either in academia or in industry, then this could be the course you’re looking for.<br/><br/>**Core modules:**<br/><br/>**Introduction to Machine Learning and Statistics** provides knowledge and understanding of the fundamental ideas and techniques in the application of data analysis, statistics and machine learning to scientific data.<br/><br/>**Introduction to Scientific and High Performance Computing** provides knowledge and understanding of paradigms, fundamental ideas and trends in High Performance Computing (HPC) and methods of numerical simulation.<br/><br/>**Professional Skills** provides C refresher training with an outlook into large-scale code usage. You will also develop wider professional skills in areas such as entrepreneurship, intellectual property and build the skill you will need to communicate novel ideas in science, and reflect on ethical issues around data and research.<br/><br/>The **Project** is a substantive piece of research into an unfamiliar area of robotics, scientific computing or data analysis, or a related area in cooperation with an industry partner. The project will develop your research, analysis and report-writing skills.<br/><br/>**Computer Vision** explores contemporary concepts, approaches and algorithms in computer vision and examines how current research is applied in the industry. Examples of themes include stereo vision, object tracking, real-time processing approaches, scene reconstruction from multiple image, object detection, and applications of computer vision for autonomous navigation.<br/><br/>**Robotics – Planning and Motion** develops your knowledge of key concepts, approaches and algorithms in robotics, and how current research is applied in the industry. <br/><br/>**Deep Learning for Computer Vision and Robotics** explores key concepts, approaches and algorithms for the use of deep machine learning and its application within industry.