Robotic technologies encompass a wide array of systems and devices that are designed to perform tasks traditionally carried out by humans, often with greater efficiency, precision, and consistency. These technologies include the development of autonomous machines, such as drones, industrial robots, and service robots, which can operate independently or in collaboration with humans. Robotics integrates various fields such as mechanical engineering, electrical engineering, computer science, and artificial intelligence to create machines capable of sensing their environment, processing information, and executing actions. The scope of robotic technologies is vast, ranging from simple automated machines used in manufacturing to complex humanoid robots capable of interacting with people and adapting to dynamic environments. Robotic technologies are important to innovation given their transformative potential across numerous industries. In manufacturing, robotics enhances productivity by automating repetitive tasks and allowing for precision that surpasses human capabilities. This leads to increased efficiency and reduced costs. In healthcare, robots assist in surgeries with high precision or provide support in elder care through monitoring and companionship. Furthermore, robotic technologies drive innovation by enabling new applications such as autonomous vehicles that promise safer transportation solutions or agricultural robots that optimize farming practices for better yields. By pushing the boundaries of what machines can do autonomously or in collaboration with humans, robotics not only improves existing processes but also opens up new possibilities for technological advancement and economic growth.