Learn About Robotics

Learn About Robotics Engineering

Robotics engineering combines multiple fields of study, such as computer science and electrical engineering, to build robots. Robots increase productivity and contribute to the growth of many industries, but they need qualified engineers to build and maintain them. If you plan on starting a career as a robotics engineer, it's helpful to know what kind of education you need and what salary you can expect. In this article, we explain what robotics engineering is, the steps to become a robotics engineer, as well as job duties, salary and outlook.

What is robotics engineering?

Robotics engineering is the field of engineering in which engineers design, test, create, update and maintain robots. Robotics engineers create automated systems to help humans perform actions they are not able to do or tasks they don't want to do, facilitating their work. Those who work for robot manufacturers are also called automation system engineers or robotics test engineers.

Robotics engineers develop different types of robots. For example, robots designed to operate in place of a human are known as manipulators, while those that work with the help of sensory manipulators or remote control are called teleoperators.

Robotics engineering is involved in multiple fields, including the computer, aerospace, automotive, nuclear, mining, metals and textile industries. In the manufacturing industry, robotics engineering improves job safety and efficiency.

What does a robotics engineer do?

A robotics engineer creates plans and processes to construct robots. Their responsibility is to build robots that are safe, productive, inexpensive to purchase and easy to maintain. They also create machines that make robots.

Robotics engineers start by understanding the need of their employers, and then they determine the specifications of the application they need to design. They estimate the costs, create prototypes and study the efficiency of their creation.

Here are some tasks a robotics engineer might perform daily:

  • Configure, test and build robots
  • Prepare and review calculations to develop cost proposals
  • Write quality control reports
  • Design automated robotic systems to increase productivity and precision
  • Design software systems that manage the robotic systems they create
  • Continually analyze and improve the robotic systems to stay up to date with current technology
  • Serve as technical support for their robotic creations
  • Research the design, operation and performance of robotic mechanism components or systems

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