Arduino provides multiple user interfaces to communicate with various electronic components and devices. This helps it be used to control robot motors and sensors and communicate with the rest of the robot components and the systems that control them. Electrical Engineering Electrical engineering is related to the design and development of electrical and electronic systems that form an essential part of the function and performance of robots.
This includes: A- Designing electrical circuits: Electrical circuits are an Phone Number Data essential part of robot control technology. The role of these circuits is to control the movement of robots and regulate the way they interact with the environment in which they operate. B- Energy systems: Robotics relies on electrical engineering in order to design energy systems that provide robots with the energy needed to operate them. The role of these systems is to improve energy efficiency and ensure that the robots continue to operate for long periods and are recharged less often. 2. Mechanical Engineering The role of mechanical engineering in the field of robotics lies in the design and development of robot structures and their mechanical parts.
A- Robotic structures: Mechanical engineering engineers design robot structures in a way that achieves a balance between strength, lightness, and rigidity. It is also the responsibility of these engineers to choose materials that can withstand the diverse environmental conditions and operational burdens of robotic tasks. B- Robotic moving systems: Mechanical engineering includes the design and development of moving systems and motors that allow robots to move accurately and efficiently. This includes selecting appropriate motors and designing transmissions in ways that enable robots to perform their tasks and functions efficiently and smoothly. 3. Mathematics Mathematics constitutes the cornerstone of the process of analyzing and designing robotic systems.