👉 Arm engineering, particularly in the context of robotic arms and manipulators, involves the design, development, and optimization of mechanical systems that enable precise and flexible manipulation of objects. This field integrates principles from mechanics, electronics, control systems, and materials science to create arms capable of performing complex tasks in various environments, from industrial automation to surgical procedures. Key aspects include the design of joints and linkages for range of motion, the selection and integration of actuators (like motors and servos) for movement control, and the implementation of sensors for feedback and precision. Advanced algorithms are also crucial for coordinating movements, ensuring stability, and adapting to dynamic conditions. The goal of arm engineering is to achieve high dexterity, robustness, and efficiency, making robotic arms versatile tools in manufacturing, healthcare, space exploration, and more.
