AutoCAD 2024 | DGN 8 | Rhino3D 8 |
Autodesk Inventor 2025 | IFC2 up to 2.3.0.1, IFC4 up to 4.0.2.1 | Solid Edge 2025 |
Autodesk Navisworks 2025 | NX - Unigraphics NX2412 | Solidworks 2025 |
CATIA V5_6R2024 | Parasolid 37.0 | STEP AP242 E1/2(beta)/3(beta) |
Creo 11.0 | Revit 2025 |
Some CAD formats can include thousands of items within them. Importing these files and then sorting and condensing them within the SA tree can take pose a challenge. There are now an intelligent options to merge surfaces and curves (b-splines) as part of the selective CAD Import process. This option condenses tree items based on the CAD's inherent structure and can greatly reduce the number separate pieces built within the SA tree on import.
An additional final fit can be performed to remove outliers and refine the solution based on the associated instrument station. Enabling the option to perform a “Final Fit” will use the ASTM E3125-17 fitting algorithms. The point cloud data is filtered so that only a central cone opening angle of 120° is used to compute the sphere and its center point. There is now an option to save these filtered clouds as part of the sphere point detection process:
A new tool has been added to easily define and construct a series of items at tone time. This tool works great for creation of geometries for cross section cuts as an example. Several options are included:
Planes at set distances along selected working frame axes
Planes rotated at set intervals about working frame z-axis
Concentric cylinders centered on working frame z-axis
This tool also offers a method to build clocked circles about working frame z-axis. This can be very helpful in spool flange measurement.
Added a new construction option to create perimeters "From CAD / Plane Intersection". This uses a selected instruments perspective to build a set of open perimeters for cross section measurement.
Cross-section clouds can now be build directly through measurement. It is now possible to scan directly into a cross section cloud with devices like the Leica ATS600.
The default mode for the ATS600 Line Scans is now "Linear" and a new method Separate Cloud Per Line is now available to facilitate this measurement method which will produce a scan stripe cloud as the measurement result for easy analysis.
An additional construction method has been added to allow separate clouds in the tree to be combined into a cross section cloud.
Added a 2D callout view lock mode.
See a cross section example using a wind turbine blade Here: 2025.1 What's New in SA: Cross Sections Measurements
There is now an option to build a dynamic tangent planes based upon the selection of two nominally parallel reference cylinders. Selection is available for all 4 possible tangent variations (top, bottom and both angles).
The impingement plane concept was added to aid in roller alignment applications. The idea being that the reference roller should be set at a given depth relative to a tangent plane set by the two adjacent rollers. The 3 Impingement criteria are computed dynamically to return statistics on these values.
See an example here: 2025.1 What's New in SA: Roller Alignment
Toroid geometry is now included in SA's list of dynamic features. When measuring bearing races and other similar shapes this feature will greatly aid in measurement and reporting.
A more advanced option has been added to detect and add nominal items to measured GR-Features. This option allows point reducible features like circles, slots and spheres to find their nominal based on the spacial distribution in the job file, prior to alignment. This new function works great for applications such as initial part alignment after scanning. For example you can now import CAD and build nominal features from it, scan the part and directly extract desired alignment features from the cloud. This new tool can then be used to directly match up nominal and measured features in one go. This works great when performing a Nominal Geometry Relationship alignment for example.
Guide points can be very helpful for inspection and they can also be used for auto measure operations. The Convert Measured Points to Guided option offers the ability to directly convert a measured set of features into a template that is pre-configured with guide points. The same operation is available on R-click Relationships branch menu. Added new menu option "Clear Inspection Guided Data" to remove guided points from the assigned relationships.
See an example here: 2025.1 What's New in SA: Ceiling Height with an ATS600
A selection of helpful updates have been made to the Trapping Controls dialog and the options it offers.
The Trapping Controls dialog now dynamically adjusts to display only the relevant controls for the selection measurement operation. This includes adjustment for the Configure Instrument display:
When Clouds are selected a directly link to the proximity filter options is provided.
Added ability to apply Trapping Controls to the selected relationship of the same type. The new functionality is applicable to all relationships that have Trapping Controls option.
The application opens a Target Watch Window for sequential trapping instead of the Closest Point watch window.
Modified Inspection Callout View assignment in the Trapping Controls dialog on checking “Use Inspection Callout View” option. User can create new callout view or select existing one.
Added Trapping Controls option to the following dialogs: Average Point Relationship Properties, Geometry Relationship Properties, Points to Objects Relationship Properties, Cloud to Objects Relationship Properties.
There is now an option to trap geometry using multi-feature trapping. The geometry acceptance tolerance settings have also been added to the trapping controls:
The Measure Batch of Features command now includes Sphere's and Cylinder geometry. The Trapping Controls dialog within each GR-Feature includes a Geometry selection control to aid in building a template for these measurements.
See an example walk through here: 2025.1 What's New in SA: Trapping Controls
Point to Point relationship are now compensated using the surface normal directions saved with the target points. This can help to ensure the desired fit even when measurements do not directly match the nominal location on angled surfaces.
This also works great with the Detect SA Object Nominals by Inter-Point Distances option.
This version completes comprehensive support for simultaneous evaluations as a template default for support of the ASME standard. Annotations marked with specific text such as "SEPT REQT" in the text below field will be automatically excluded from the simultaneous default requirement set in the user Options.
A selective simultaneous evaluation option is now also available which allows the default to remain off and only the selected checks be evaluated together. Doing so also creates a dynamic event in the tree that offers the ability to re-compute the prior selection of checks.
The GD&T Ribbon Menu has been updated to offer direct access to the GD&T User Options, Simultaneously Evaluated Selected Checks, and an option to Clear All Results, which is helpful when using locked results.
See an example here: 2025.1 What's New in SA: Simultaneous Evaluations
GR-Feature points associations are now used directly within a GD&T Feature Check that references multiple inspection features. Feature checks that include references to a bunch of different items, such as a position check on a hole patter, have always used proximity to determine which points are associated with which features. This can cause problems if the alignment is significantly off. Building checks from GR-Features eliminates this problem.
Rotate objects in 3D space with greater ease and precision through a selective reference frame. This version implemented a user selectable reference to either the current working frame or the objects own starting orientation, or its Local frame. This allows position changes to be applied with respect to either the Working frame or the starting position. Note that this option is only available where there is a single moveable object in the object move list.
Added Construct Cylinders from CAD Surfaces to the list of extractions available within the From Surfaces options.
There is now a graphical indicator that can be enabled within SA to display the Vertical Alignment of an instrument in the job file. This status indicator is enabled automatically when you measure level within a job file and will account for level compensation such as Leica's OTG and API's Virtual Level. The reference frame and additional tolerance controls are available within the instrument's right-click menu.
A new option has been added which allows you to right-click on a point on a CAD model and directly point the instruments beam at that location. This only works if you are first aligned to the part but can be quite helpful after that, when measuring particular features. It works just the same as right-clicking on an existing point and selecting Point At.
The latest API iLT Laser Tracker is now supported. This new tracker is significantly smaller than the other Radian laser trackers. This version includes API's latest SDK and support for the vprobe.
ATS600 - Now supports measuring into Cross Section clouds directly as part of a Line Scan measurement profile.
Add Keyboard Measure Button for Arm Interface. This allows measurements to be triggered from an arm without pressing any of the arm buttons manually.
Improved Video Performance and mouse Click-Driving operations
Added SDK update and tighter integration with the GR-Feature measure batch of features options. Improved auto measure of SA Geometry Relationships (Features) by MV430E/MV450E Gauging Engine (GE). This includes the addition of GR-Spheres and GR-Cylinders to the list of supported geometry types.
Updated performance and synchronization with the HHScann measurement process.
Added MP Op Check string command, "Zero Projector Transform"
Added MP profile diagnostics that will generate an output file: "Analyzer Data\MPStepTimeLog.csv". This can be used to identify what commands may be slowing down an application.
Get Instrument Group and Target - Returns the collection, group and target name currently set within the selected instrument.
Get Instrument Measurement Mode / Profile - Returns the name of the current measurement profile or mode active for the selected instrument.
Get Instrument Targeting - Returns the current target name set for the selected instrument.
Mesh Fill Holes - Offers the ability to either automate mesh hole filling or prompt an operator to select holes to fill.
Set Cone Properties -Allowed direct editing of the properties of an existing cone.
Auto Filter Clouds to Nominal Geometry 3D - added "Use Filter Settings?" toggle to specify whether to use the proximity cloud auto filter settings
Direct CAD Access - This command has been updated to default to True for Surface Compatibility Mode.
Construct Objects From Surface Faces - Runtime Select - This command has been updated to offer more geometry types and point exaction methods
Feature Inspection Auto Filter will now only filter to explicitly added feature checks.
Get Cone Properties - added Cut Length from Apex
Get General Relationship Statistics - renamed Max Deviation to Absolute Max Deviation
Get Points to Objects Relationship Statistics - added new argument Avg Deviation
Mesh Volume - This command has been corrected to work with angled planes.
Re-Compute Calculated Items - added "Refresh Filtered Cloud Data?" argument