What constitutes 'robot programming languages' for FANUC systems?

The definition of 'robot programming languages' specifically for FANUC systems encompasses tools and languages that are designed to program and interact directly with FANUC robots. KAREL is a high-level programming language developed by FANUC for its robots, specifically tailored for complex task definitions and applications. Teach Pendant Programming utilizes a user-friendly interface that enables operators to program robots using a set of commands through a handheld device, making it accessible for real-time adjustments and simple operations. Other development tools provided by FANUC further facilitate the programming and implementation processes for users.

While programming languages such as Python, Java, and C++ are widely used in software development, they are not tailored specifically for FANUC systems. They are general-purpose programming languages that serve different applications outside of the specialized robotics context. Similarly, assembly language and machine code, while fundamental to computer operations, do not directly relate to the high-level programming needed for controlling FANUC robots. Visual Basic and MATLAB are tools for various programming scenarios but lack specific application within the context of FANUC robot systems. Therefore, the combination in the correct choice represents the dedicated tools necessary for effective FANUC robot programming.