MIT offers an Intro to Robotics course. This course provides an overview of robot mechanisms, dynamics, and intelligent controls. Topics include planar and spatial kinematics, and motion planning; mechanism design for manipulators and mobile robots. Students work together to design and construct working robotic systems. These systems feature sensors, wireless networking, interfaces, and embedded software.
This history of robotics is intertwined with the histories of technology, science and the basic principle of progress. Technology used in computing, electricity, even pneumatics and hydraulics can all be considered a part of the history of robotics. The timeline presented is therefore far from complete.
Dr. Tessa Lau works in the branch of engineering that involves the conception, design, manufacture, and operation of robots. She is involved in making autonomous robots for the service industry. Find out how she is transforming how we interact with robots!
Robotics engineers work in various industries such as agriculture, military, medical, and manufacturing. Engineers work to design efficient robots which automate manual labor. The U.S. Bureau of Labor Statistics recommended that those seeking a job in the robotics engineering field earn at least a bachelor's degree. They must also pass the Fundamentals of Engineering and Principles and Practice of Engineering exams.
Research what it takes to become a robotics engineer. Learn about the job duties, education requirements, salary, and job outlook to find out if this is the right career for you. Schools offering Computer & Electronics Engineering Technology degrees can also be found in these popular choices.
A robotics engineer is a behind-the-scenes designer, who is responsible for creating robots and robotic systems that are able to perform duties that humans are either unable or prefer not to complete. Find out more: What do they do, how do you become one, what is the job like?