The is not merely a list of definitions; it is the foundational key to understanding the architecture of the Digital Twin. This write-up explores the structure, key terminology, and significance of the DELMIA vocabulary.
The "holy grail" of robotics. Instead of teaching a robot on the factory floor (which stops production), you write and test the robot code in DELMIA, then download the finished program to the real robot.
Assembling standard parts for specific orders. delmia glossary
The 3D bubble representing everywhere a robot (or human arm) can physically touch. If the part is outside this bubble, you need to move the workstation.
To illustrate the depth of the software, the following are essential terms found in a standard DELMIA glossary, categorized by their function. The is not merely a list of definitions;
DELMIA is used by distinct groups of engineers: Process Planners (who are logical/sequence focused) and Simulation Engineers (who are spatial/kinematic focused). The glossary standardizes terms so that a "Process" to a planner equates to a "Sequence of Operations" to a simulator, ensuring seamless data handover.
A high-accuracy virtual representation of a physical object, process, or system used for simulation and real-time monitoring. Instead of teaching a robot on the factory
This is the "operating system" that runs modern DELMIA. It’s a cloud-connected, collaborative environment where everyone (designers, engineers, managers) works on the same live 3D data. Note: Older versions (V5/V6) work differently, but 3DX is the future.
A process used to manage production planning and shop floor activities via realistic, constraint-based schedules. BOM (Bill of Materials): EBOM: Engineering Bill of Materials (as designed).
By understanding the DELMIA glossary, users can: