Top 25 Master of Science Degrees in Automation 2019
The MSc, or Master of Science, is an internationally recognized academic degree that indicates proficiency and knowledge of a given topic or field. Most MSc programs take about four years to finish, after which some join the workforce while others continue on in the classroom.
Students interested in engineering and working with high-tech equipment may want to study automation. Through a variety of classes, students can learn how to operate, fix and maintain automated equipment of electromechanical systems and industrial electronics.
Technological development offers new possibilities to make people's daily lives more healthy, safe, understandable, independent, fun and comfortable.
Technological development offers new possibilities to make people's daily lives more healthy, safe, understandable, independent, fun and comfortable. New technologies provide us, for instance, with energy-friendly and sustainable solutions to improve the environment in which we live as well as tools for elderly people to live longer on their own. Furthermore, new technologies provide us with new means of communication and new ways of entertainment. Examples are smartphones, ambient intelligence and smart homes, online shopping and communities, 3D television and renewable energy technologies like hydrogen technology and biomass.
For these technologies to be really successful, people will need to be able to use them properly as well as trust, accept and adopt them. As a Human-Technology Interaction engineer, you are typically concerned with topics that require a profound understanding of both the human and technological aspects. You will learn about usability, ergonomics, perception, cognition, decision making, social psychology, consumer behavior and environmental psychology. Simultaneously, as a Human-Technology Interaction engineer, you will need a thorough understanding of technology. Therefore, a substantial part of the Master’s Program will consist of engineering courses in the area of your interest....
Data engineering tickles your curiosity: every day is an adventure in the jungle of new data challenges. Data-driven systems are at the centre of modern computer engineer
The key to the fourth industrial revolution
Data engineering tickles your curiosity: every day is an adventure in the jungle of new data challenges.
Data-driven systems are at the centre of modern computer engineering and hold great promise for the future.
Data engineering is needed for solving challenging pattern recognition problems, such as intelligent search engines, self-driving cars, autonomous robots, or automatic car number plate recognition systems.
Our major studies in Data Engineering and Machine Learning combine modern machine learning techniques with efficient implementation skills. Real-life deployment skills are not only about the mathematics of machine learning but also require an understanding of databases, programming languages and even hardware design; all aiming at the efficient processing of huge data masses, with the best algorithms brought by modern machine learning....
As intelligent autonomous robots increasingly become part of our lives, the field of human-robot interaction seeks to understand and improve all aspects of interactions b
As intelligent autonomous robots increasingly become part of our lives, the field of human-robot interaction seeks to understand and improve all aspects of interactions between humans and robots.
Human-Robot Interaction is an interdisciplinary effort aimed at understanding and improving all aspects of interactions between humans and robots. It draws on knowledge from computer science, mechanical and electrical engineering, as well as psychology, philosophy, anthropology, legal fields, among various others.
Cutting across the engineering and social sciences, human-robot interaction research is a paradigmatic multi- and inter-disciplinary program with enormous future societal benefits....
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 goal of this program is to prepare students for the design and development of software for intelligent systems including, e.g. autonomous cars. Students will get up-t
The goal of this program is to prepare students for the design and development of software for intelligent systems including, e.g. autonomous cars. Students will get up-to-date knowledge in one of the fastest growing and dominant technological trends of the future. The training offers students the opportunity to acquire valuable knowledge and competencies in software technology, real-time systems, artificial intelligence, robotics and deep learning, data mining, computer image and signal processing, process control, computer graphics, and vision. Electives include GIS systems, autonomous systems security issues and industrial mathematics. Students will be involved in the work of the research labs and can work on real industrial research together with professionals of leading companies interested in autonomous systems and autonomous driving....
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....
Ghent University - Faculty of Engineering and Architecture
Electromechanical engineering is a collection of engineering disciplines around the themes motion, force and energy. The world of electromechanical engineering encompasse
Electromechanical engineering is a collection of engineering disciplines around the themes motion, force and energy. The world of electromechanical engineering encompasses development, design, manufacturing, testing and control of tools, machines, vehicles and other electrical or mechanical systems, as well as research on these topics.
The Master of Science in Electromechanical Engineering is a two-year degree program intended to prepare students for a future technical leadership role in the industry. The program offers in-depth training in all aspects of electromechanical engineering and its economic and social implications based on a profound scientific basis. Graduates will have acquired an attitude of scientific synthesis, analytical reasoning as well as scientific and technical independence. Training in research skills provides mastery in developing, implementing and monitoring technical and scientific innovations....
This program aims at providing graduates with sound engineering skills to design, to develop, to implement and to manage automation systems for manufacturing plants, indu
Mission and goals
Graduates have a strong background in the classical engineering fields, in the information and in the telecommunication technologies. The interdisciplinary nature of this program provides graduates with all the necessary skills to design and to manage systems resulting from the integration of highly diverse technologies. Graduates will have wide employment opportunities in many fields: industry producing manufacturing systems, automatic machines, robotic systems, mechatronic systems, process industry, transportation systems, transportation and distribution networks, food industry, electrical appliances, home automation and environmental resources.
Autonomy, adaptability and network integration are characteristic features of complex IT systems. Conventional control systems and architectures are no longer adequate to
Master of Science Autonomous Systems
Autonomy, adaptability and network integration are characteristic features of complex IT systems. Conventional control systems and architectures are no longer adequate to realize the potential of these technologies completely, nor are they sufficient to master the complexity of such systems. The solution is to design selected components as 'autonomous systems' which can act mainly on themselves without external control most of the time. In this context, autonomous mobile and biomimetic robots form the forefront of development.
The international program 'Autonomous Systems' offers multi-faceted training in the fields of artificial intelligence and robotics, spanning a whole range of issues involved in the field....
This is a two-year master programme. To study a master degree in Robot Systems you must have a relevant bachelor degree (three years of previous...
What do you prefer – to lean back and watch science fiction movies with the rest of the world, or to make the ‘science facts’ of the future? Robots with artificial intelligence that recognise people and adapt to their individual needs. Robot technology that saves lives at the hospitals, makes all the technology in your home communicate with each other, or makes your car drive itself ... and safer.As a master student, you can choose to concentrate on one of the research areas: Robotics, Artificial Intelligence, Embedded Systems or Computer Vision.
This is a two-year master programme. To study a master degree in Robot Systems you must have a relevant bachelor degree (three years of the previous study at university level).At the master programme, you choose an academic profile; the area in which you want to specialise....
The MSc course in Signals, Systems and Control provides the necessary academic, practical and professional knowledge for students to learn and achieve high-tech competenc
Course title: Master of Science in Signals, Systems and Control
Course code: PMSCSSCFTT7
Level of qualification: Second Cycle
National Qualifications Framework level: Level 7
Duration: 3 Semesters
Mode of attendance: Full-time
Total ECTS credits: 90
Coordinator: Simon G. Fabri
Delivered by: Faculty of Engineering
This programme of study is also offered on a part-time basis. Please consult the Registrar's website for more information pertaining to courses offered by the University.
The MSc course in Signals, Systems and Control provides the necessary academic, practical and professional knowledge for students to learn and achieve high-tech competencies and advanced technological skills in the interlinked areas of signal processing, dynamic systems and automatic control systems. These three areas are the crucial building blocks of modern engineering methodologies applied for the design, development, implementation and analysis of complex systems, ranging from engineering applications and industrial problems to more mundane situations such as financial modelling and environmental control....
The MSc in Computer and Automation Engineering aims at providing high-level competencies for the design, management, development and innovation in the fields of advanced
Computer and Automation Engineering
The MSc in Computer and Automation Engineering aims at providing high-level competencies for the design, management, development and innovation in the fields of advanced hardware and software architectures, and of control systems and robotics. In particular, the program is focused on human-machine interaction in a wide sense, spanning topics such as artificial intelligence, machine learning, high-performance processing of massive data collections, human-robot interfaces, and systems for production automation.
Università di Siena photo archive
The students can complete the program by focusing either on information systems design or on robotics and automation. In particular, the students can choose courses covering the design issues for advanced database systems, such as search engine technologies and information retrieval; the theory of formal languages and the technological aspects of language parsers and natural language processing tools; the applications of bioinformatics and information systems for biological databases; the algorithms for image processing; the techniques for the modelling, analysis and simulation of complex dynamic systems; the principles of estimation theory applied to system identification and filtering; the modern paradigms of uncertainty representation and the main techniques for analysis and design of uncertain systems; the competencies for the design of advanced sensor systems....
The Institute of Automation and Robotics of the Faculty of Computing at Poznan University of Technology (PUT), Poland offers Master of Science in Automatic Control and Ro
Master Degree in Automation and Robotics, specialization: Smart Aerospace and Autonomous Systems (SAAS)
The Institute of Automation and Robotics of the Faculty of Computing at Poznan University of Technology (PUT), Poland offers Master of Science in Automatic Control and Robotics with specialization Smart Aerospace and Autonomous Systems (SAAS) – Autonomiczne Systemy Latające na kierunku Automatyka i Robotyka.
The last decade has seen a significant increase in research in Smart Aerospace and Autonomous Systems. Now, the field is sufficiently mature to engage in a procedure of education. From an educational point of view in the SAAS program we are interested in developing, modeling, simulating and testing guidance, navigation, control and decision systems for autonomous operation of unmanned aerial vehicle systems, unmanned ground vehicle and autonomous and robot systems. Issues of special interest include the determination of levels of autonomy and integration of control, online decision systems, mission planning, trajectory generation and tracking and limited communication....
The master’s program provides high-level education to graduate students with a Bachelor in Electrical Engineering or scientific disciplines.
The master’s program provides high-level education to graduate students with a Bachelor in Electrical Engineering or scientific disciplines. The syllabus comprises topics in the following areas:
Electrical Engineering: Electrical Drives, Automation, and Communication in Industrial Systems, Industrial Measurements, Wireless Communication Systems
Automation: Advanced Control Systems, Industrial Automation, Process Control, Robotics, Embedded and Real-time systems
Economics and Management: Lean production, Organization Theory and Design, Economics for digital society, Strategic Management and Business Planning, Logistics Management
Lectures are integrated with lab activities, seminars and tutorials, delivered by industry leaders and visiting professors from all over the world....
The Master's degree programme in Human-Machine Communication (HMC) focuses on Cognitive Science and its applications.
How can we model human task performance? How do our brains combine visual and auditory information? What is the ideal interface for a tired air traffic controller?
The Master's degree programme in Human-Machine Communication (HMC) focuses on Cognitive Science and its applications. By knowing more about cognition you can, for example, improve the communication between humans and complex computer systems, use language and speech technology or develop simulation models of users. HMC provides you with insights into human cognition and teaches you to use this knowledge in applied settings, such as tutoring systems, speech technology and human-computer interaction.