Search results
Results from the WOW.Com Content Network
For example, there are over 30 different manufacturers of industrial robots, so there are also 30 different robot programming languages required. There are enough similarities between the different robots that it is possible to gain a broad-based understanding of robot programming without having to learn each manufacturer's proprietary language ...
RoboMind is a simple educational programming environment with its own scripting language that allows beginners to learn the basics of computer science by programming a simulated robot. In addition to introducing common programming techniques, it also aims at offering insights in robotics and artificial intelligence.
The embodiment of the robot, situated in a physical embedding, provides at the same time specific difficulties (e.g. high-dimensionality, real time constraints for collecting data and learning) and opportunities for guiding the learning process (e.g. sensorimotor synergies, motor primitives).
The first object-level robot programming language, RAPT, allowing robots to handle variations in object position, shape, and sensor noise. [187] Freddy I and II: Patricia Ambler and Robin Popplestone: 1983 First multitasking, the parallel programming language used for robot control.
Programming skills are necessary for specialization in robotics. Knowledge of programming language—ROBOTC—is important for functioning robots. An industrial robot is a prime example of a mechatronics system; it includes aspects of electronics, mechanics and computing to do its day-to-day jobs.
rviz [69] (Robot Visualization tool) is a three-dimensional visualizer used to visualize robots, the environments they work in, and sensor data. It is a highly configurable tool, with many different types of visualizations and plugins. Unified Robot Description Format is an XML file format for robot model description.
The Robot Interaction Language (ROILA) is the first spoken language created specifically for talking to robots. [1] ROILA is being developed by the Department of Industrial Design at Eindhoven University of Technology. The major goals of ROILA are that it should be easily learnable by the user, and optimized for efficient recognition by robots
The PbD paradigm is first attractive to the robotics industry due to the costs involved in the development and maintenance of robot programs. In this field, the operator often has implicit knowledge on the task to achieve (he/she knows how to do it), but does not have usually the programming skills (or the time) required to reconfigure the robot.