Learners can make programming errors in a virtual environment without damaging expensive equipment.
CIROS includes a massive library of pre-built, high-fidelity 3D models. Users can instantly access standard industrial robots from leading manufacturers (such as ABB, KUKA, Fanuc, and Mitsubishi), as well as sensors, conveyors, pneumatic actuators, and material handling systems. For custom setups, users can import CAD files in standard formats (like STEP or IGES) and assign physical properties to them. 2. Physics-Based Simulation
Integration with real Programmable Logic Controllers (PLCs) and virtual controllers. Support for industry-standard robot programming languages. ciros robotics
CIROS Robotics is an Italian "Systems Integrator" specializing in the design and construction of automated systems and robotic islands. The company is a key player in the manufacturing landscape, primarily serving the automotive industry. They are known for providing "turnkey" solutions, handling projects from the initial design phase through to installation, commissioning, and after-sales support. In 2022, the company significantly strengthened its market position by joining the .
This is the central hub for managing your robotic cell components, such as robots, conveyors, and sensors. Learners can make programming errors in a virtual
The software provides a comprehensive suite of tools designed to mirror real-world industrial scenarios:
: This edition focuses on students, learners, and educational settings. Users interact with pre-fabricated, ready-made models of robot stations. They can learn to write programs, simulate sensors, and evaluate kinematics without damaging physical machinery. For custom setups, users can import CAD files
Specifically tailored for schools and universities, focusing on teaching programming and production control.
The platform serves as a digital twin for Festo Didactic learning systems, such as the Modular Production System (MPS) and Robotino. Users can perform virtual commissioning, testing PLC logic (e.g., via OPC UA, CODESYS, or Siemens PLCSIM Advanced) and robot programs simultaneously. 3. Advanced Programming and Simulation
Choose a robot model from the extensive library (e.g., Mitsubishi, ABB, Kuka). Positioning:
You can simulate motion sequences to identify potential collisions and optimize cycle times before deploying programs to physical hardware.