In applications where the scan target is larger than a single sensor’s field of view, or has a complex shape, multi-view scanning and processing are required in order to capture the complete geometry of the part.
Multi-view scanning and processing are used to:
- Cover larger fields of view while maintaining high resolution
- See more of the part (360º ring layout or opposing layout to measure thickness)
- See past occlusions (undercuts, gaps, steep edges)
- Perform absolute measurement between two or more features separated by a large distance (where both sensors must be calibrated to a world coordinate system)
Part 1 here: https://lmi3d.com/company/digital-hub/blog/multi-view-3d-scanning-and-processing-part-1
![Cell phone part verification using multi-view processing](https://lmi3d.com/sites/default/files/inline-images/2520_cellphone_verification_Factsheet_comp.png)
Part 2 here: https://lmi3d.com/company/digital-hub/blog/multi-view-3d-scanning-and-processing-part-2
![Sensor Discovery and Mapping](https://lmi3d.com/sites/default/files/inline-images/2430_ring_comp.png)
Part 3 here: https://lmi3d.com/company/digital-hub/blog/multi-view-3d-scanning-and-processing-part-3
![Multiple scan angles merged into a single 3D image of the target](https://lmi3d.com/sites/default/files/inline-images/Screen%20Shot%202019-04-02%20at%203.23.04%20PM.png)
Find more information about LMI Gocator here: https://lmi3d.com/products/gocator-3D-smart-sensors