3D files generate a new form of corporate assets that provide very valuable information for more effective control over enterprise processes and better decision-making. Open Cascade uses modern proprietary 3D technologies to prepare, process, optimize and transform various types of 3D geometry to adapt it for the necessary operations workflows. The resulted solutions help to optimize production, quality control and inspection.
With the original, transformed and properly prepared geometry you may simulate the behavior of machines or equipment with maximum accuracy, reduce cost on real tests, increase productivity or simply work in the virtual environment.
The proprietary algorithms for a better usability in downstream applications help simplify CAD data and protect IP when needed. Coupled with Level of Detail approach, data simplification enables flawless visualization and non-stop data stream for XR for really large assemblies. Resulted datasets can be easily manipulated on mobile devices with minimum hardware requirements.
Specific methods for recovering the integrity of 3D data from point clouds or computed tomography results are widely used in manufacturing for reverse engineering or inspection, quality control or diagnostic operations in medicine. In manufacturing, the usage of these technologies improves efficiency and helps eliminate defects by early detection of deviations when a manufactured part is compared to its CAD design.
Mesh generation algorithms are indispensable when it comes to performing numerical simulation, precise calculations, fluid dynamic and finite element analysis. Visual representation of results gives a competitive advantage providing more intuitive ways of processing and analyzing data using tables, colored gradient fields and online diagrams.
Kinematics calculation algorithms for the movement of objects simplify the creation of programs for smart equipment and speeds up the process of designing assembly lines. Quick and accurate production of the parts, precise tool path generation with a reduced rate of possible defect by automating manufacturing processes are main benefits of simulation algorithms.