Today, robots as the automated machines, have become a huge part of our lives in an effort to help people in an assortment of settings, from assembling processes to working in complex conditions, unsatisfactory for human life. Moreover, robotics as a field has penetrated a number of industries to accomplish assorted tasks by structuring mechanical devices. The upsurge in technological advancements and demand for robotics professionals in the market has mandated the applicable education of budding tech-enthusiasts. Robotics has been undergoing rapid development, so studying wont be easy as you may think. However, significant universities are offering innovative and all-inclusive robotics programs to train the future of technology.

Here is the list of top 10 robotics engineering courses and universities that are redefining the face of robotics education.

Course: Master of Science in Engineering in Robotics

Department: Mechanical Engineering and Applied Mechanics

Description: The masters program in Robotics is a unique program administered by Penns General Robotics, Automation, Sensing and Perception (GRASP) Laboratory, recognized as one of the nations premier research centers. Multi-disciplinary in scope, the program provides an ideal foundation for what todays experts in robotics and intelligent systems need to know from artificial intelligence, computer vision, control systems, dynamics, and machine learning to design, programming and prototyping of robotic systems.

Course: Master of Science in Robotics Engineering

Department: Robotics Engineering

Description: WPIs MS in Robotics Engineering program is a leading, first-of-its-kind graduate program in the nation and an internationally lauded academic program. And for all the serious research that goes on here, the institute encourages imaginative and creative work with robots. On a campus located in the heart of New Englands robotics industry, youll work on innovative robotics projects from the get-go alongside influential and renowned faculty in its state-of-the-art labs.

Course: Master of Science in Robotics Systems Development

Department: The Robotics Institute

Description: The MRSD curriculum provides a broad education in the sciences and technologies of robotics, reinforces theory through hands-on laboratory projects and exposes students to practical business principles and skills. The unique curriculum allows students to work as a team towards practical system-level robotics development and integration projects. Key business concepts and practices in the curriculum include technology planning, product conceptualization and development, team management, project management, prototyping, production, marketing, and sales.

Course: Mechanical Engineering with Robotics MEng

Department: Engineering and Robotics

Description: The Master of Engineering (MEng) degree lets you specialize your degree with a range of options and provides you with the educational requirements needed to become a Chartered Engineer. On this course, you have the opportunity to develop specific expertise in robotics alongside skills in mechanical engineering; making you employable by various sectors, from robot design and development to autonomous cars, robotics, automation, mechatronics, automotive, aerospace, and renewable energies. The institutes world-class research in robotics, dynamics and control, space systems, sensors, and flexible electronics informs its degrees to give you the best start in your career.

Course: MSc in Engineering Robot Systems (Advanced Robotics Technology/Drones and Autonomous Systems)

Department: Engineering

Description: As an MSc in Engineering in Robot Systems you can take part in the development that occurs within drone- and robot systems. You can, for example, develop robots with artificial intelligence that recognizes different people and adapt to their needs in hospitals, in industry, and in private homes. Or you can work with drones (Unmanned Aerial Systems) which inspects powerlines or buildings, helps in agriculture, delivers blood samples to hospitals or find people who have been injured in natural disasters.

Course: Master of Engineering Sciences in Mechatronics

Department: Faculty of Mechanics

Description: To prepare high qualification graduates with deep comprehensive and up-to-date knowledge in mechatronics including mechanical engineering, information technologies, mechatronic systems, and mathematical modeling. To prepare specialists with analytical, modeling and projection skills in manufacturing and process management of mechatronic systems with their parameters optimization as well as the specialists having mechatronic problem-solving skills applicable to research. To provide students with the knowledge which is required to accomplish not only the tasks of projecting, researching and performing technologic-manufacturing jobs but also needful for executing the expert-consultative or supervisory functions in the mechatronic companies and organizations.

Course: Masters Degree in Robotics

Department: Robotics

Description: This program provides education on the theory, technology, and practice of intelligent robots, such as mobile robots, wearable robots, robotic manipulators, autonomous and brain-interfaced robots. In addition to classes spanning from electromechanical systems to advanced artificial intelligence, the program offers a large set of hands-on activities where students learn by designing, prototyping and validating robotic systems. Both core and optional classes include hands-on exercises aimed at applying theoretical aspects to real systems. In addition, for the semester and interdisciplinary projects, as well as the final masters thesis, students work with researchers on challenging problems within EPFL robotics laboratories or in the industry.

Course: Materials Science and Engineering (M.S.)

Department: Materials Science and Engineering (M.S.)

Description: Materials Science and Engineering (MSE) research is aimed at educating and training the next generation of out-of-the-box thinkers to solve the biggest global challenges. By fostering a multidisciplinary approach, MSE degree programs strive to endow students with the tools to strategically question current design paradigms and drive innovative materials and manufacturing solutions across a diverse range of technological sectors. Motivated by modern materials challenges in energy, computing, transportation, impact protection, robotics, and global health care, MSE programs comprehensive, experiential training is designed to arm graduates with a modernized skillset tailored to confront those challenges head-on.

Course: Master of Science or Doctorate in Robotics

Department: Robotics

Description: Michigan Robotics offers Masters and Ph.D. degrees. Both programs are built on a common set of course requirements, with Ph.D. students also completing research published in leading journals in the field of robotics. The Michigan Robotics program consists of three main technical areas, which converge as students produce functioning robots: Sensing of the environment, external agents, and internal body information to determine state information; Reasoning with that information to make decisions for guidance, control, and localization; and Acting upon the body and environment to produce motion or other outputs that enable the robot to locomote or interact with the environment. Each of these areas may be considered a sub-plan for coursework and research study.

Course: Master of Engineering and Graduate Certificate in Engineering programs

Department: Office of Advanced Engineering Education

Description: As one of the fastest-growing fields within technology and engineering, a graduate degree in robotics offers you career opportunities in diverse industries, including aerospace, manufacturing, defense, and even healthcare. The University of Marylands Master of Engineering and Graduate Certificate in Engineering programs bring together engineering professionals who have a passion for discovering robotics potential to benefit society. The institutes curriculum is designed to build understanding and expertise in robotics design, modeling, control systems, autonomous robotics, machine learning, computer vision, and human-robot interaction.

Original post:

Top 10 Robotics Engineering Universities and Courses in 2020 - Analytics Insight