This page provides some information on aligning a Rigid Body pivot point with a real object replicated 3D model.
When using streamed Rigid Body data to animate a real-life replicate 3D model, the alignment of the pivot point is necessary. In other words, the location of the Rigid Body pivot coincides with the location of the pivot point in the corresponding 3D model. If they are not aligned accurately, the animated motion will not be in a 1:1 ratio compared to the actual motion. This alignment is commonly needed for real-time VR applications where real-life objects are 3D modeled and animated in the scene. The suggested approaches for aligning these pivot points will be discussed on this page.
There are two methods for doing this. Using a measurement probe to sample 3D points to reference from, or simply using a reference grayscale view to align. The first method of creating and using a measurement probe is most accurate and recommended.
Step 1. Create a Rigid Body of the target object
First of all, create a Rigid Body from the markers on the target object. By default, the pivot point of the Rigid Body will be positioned at the geometrical center of the marker placement. Then place the object onto somewhere stable where it will stay stationary.
Step 2. Create a measurement probe.
For instructions on creating a measurement probe, please refer to Measurement Probe page. You can purchase our probe or create your own. All you need is 4 markers with a static relationship to a projected tip.
Step 3. Collect data points to outline the silhouette
Use the created measurement probe to collect sample data points that outlines the silhouette of your object. Mark all of the corners and other key features on the object.
Step 4. Attach 3D model
After 3D data points have been generated using the probe, attach your game geometry (obj file) to the Rigid Body by turning on the Model Replace property and importing the geometry under Attached Geometry property.
From the sampled 3D points, You can also export markers created from the probe to Maya or other content creation packages to generate models guaranteed to scale correctly.
Step 5. Translate the pivot point
Next step is to translate the 3D model so that the attached model aligns with the silhouette sample that we collected in Step 3. The model can be easily translated and rotated using the GIZMO tool. Move, rotate, and scale the asset unit it is aligned with the silhouette.
For accurate alignment, it will be easier to decrease the size of the marker visual. This can be changed from the Marker Diameter setting under the application settings panel.
Step 6. Copy transformation values
After you have translated, rotated, and scaled the pivot point of the Rigid Body to align the attached 3D model with the sampled data points, the transformation values will be shown under the Attached Geometry property.
Copy and paste this transformation parameter onto the Rigid Body location and orientation options under the Edit tab in the Builder pane. This will translate the pivot point of the Rigid Body in Motive, and align it with the pivot point of the 3D model.
Step 7. Zero all transformation values in the Attached Geometry section
Once the Rigid Body pivot point has been moved using the Builder pane, zero all of the transformation configurations under the Attached Geometry property for the Rigid Body.
Alternatively, if probe method is not applicable, you can also switch one of the cameras into grayscale view, right click on the camera in the Cameras view and select Make Reference. This will create a Rigid Body overlay in the Camera view pane to align the Rigid Body pivot using the similar approach as above.
In Motive, Rigid Body assets are used for tracking rigid, unmalleable, objects. A set of markers get securely attached to tracked objects, and respective placement information gets used to identify the object and report 6 Degree of Freedom (6DoF) data. Thus, it's important that the distances between placed markers stay the same throughout the range of motion. Either passive retro-reflective markers or active LED markers can be used to define and track a Rigid Body. This page details instructions on how to create rigid bodies in Motive and other useful features associated with the assets.
A Rigid Body in Motive is a collection of three or more markers on an object that are interconnected to each other with an assumption that the tracked object is unmalleable. More specifically, it assumes that the spatial relationship among the attached markers remains unchanged and the marker-to-marker distance does not deviate beyond the allowable deflection tolerance defined under the corresponding Rigid Body properties. Otherwise, involved markers may become unlabeled. Cover any reflective surfaces on the Rigid Body with non-reflective materials, and attach the markers on the exterior of the Rigid Body where cameras can easily capture them.
Tip: If you wish to get more accurate 3D orientation data (pitch, roll, and yaw) of a Rigid Body, it is beneficial to spread markers as far as you can within the same Rigid Body. By placing the markers this way, any slight deviation in the orientation will be reflected from small changes in the position.
In a 3D space, a minimum of three coordinates is required for defining a plane using vector relationships; likewise, at least three markers are required to define a Rigid Body in Motive. Whenever possible, it is best to use 4+ markers to create a Rigid Body. Additional markers provide more 3D coordinates for computing positions and orientations of a rigid body, making overall tracking more stable and less vulnerable to marker occlusions. When any of markers are occluded, Motive can reference to other visible markers to solve for the missing data and compute position and orientation of the rigid body.
However, placing too many markers on one Rigid Body is not recommended. When too many markers are placed in close vicinity, markers may overlap on the camera view, and Motive may not resolve individual reflections. This may increase the likelihood of label-swaps during capture. Securely place a sufficient number of markers (usually less than 10) just enough to cover the main frame of the Rigid Body.
Tip: The recommended number of markers per a Rigid Body is 4 ~ 12 markers. Rigid Body cannot be created with more than 20 markers in Motive.
Within a Rigid Body asset, its markers should be placed asymmetrically because this provides a clear distinction of orientations. Avoid placing the markers in symmetrical shapes such as squares, isosceles, or equilateral triangles. Symmetrical arrangements make asset identification difficult, and they may cause the Rigid Body assets to flip during capture.
When tracking multiple objects using passive markers, it is beneficial to create unique Rigid Body assets in Motive. Specifically, you need to place retroreflective markers in a distinctive arrangement between each object, and it will allow Motive to more clearly identify the markers on each Rigid Body throughout capture. In other words, their unique, non-congruent, arrangements work as distinctive identification flags among multiple assets in Motive. This not only reduces processing loads for the Rigid Body solver, but it also improves the tracking stability. Not having unique Rigid Bodies could lead to labeling errors especially when tracking several assets with similar size and shape.
Note for Active Marker Users
If you are using OptiTrack active markers for tracking multiple Rigid Bodies, it is not required to have unique marker placements. Through the active labeling protocol, active markers can be labeled individually and multiple rigid bodies can be distinguished through uniquely assigned marker labels. Please read through Active Marker Tracking page for more information.
What Makes Rigid Bodies Unique?
The key idea of creating unique Rigid Body is to avoid geometrical congruency within multiple Rigid Bodies in Motive.
Unique Marker Arrangement. Each Rigid Body must have a unique, non-congruent, marker placement creating a unique shape when the markers are interconnected.
Unique Marker-to-Marker Distances. When tracking several objects, introducing unique shapes could be difficult. Another solution is to vary Marker-to-marker distances. This will create similar shapes with varying sizes, and make them distinctive from the others.
Unique Marker Counts Adding extra markers is another method of introducing the uniqueness. Extra markers will not only make the Rigid Bodies more distinctive, but they will also provide more options for varying the arrangements to avoid the congruency.
What Happens When Rigid Bodies Are Not Unique?
Having multiple non-unique Rigid Bodies may lead to mislabeling errors. However, in Motive, non-unique Rigid Bodies can also be tracked fairly well as long as the non-unique Rigid Bodies are continuously tracked throughout capture. Motive can refer to the trajectory history to identify and associate corresponding Rigid Bodies within different frames. In order to track non-unique Rigid Bodies, you must make sure the Properties → General Settings → Unique setting in Rigid Body Properties of the assets are set to False.
Even though it is possible to track non-unique Rigid Bodies, it is strongly recommended to make each asset unique. Tracking of multiple congruent Rigid Bodies could be lost during capture either by occlusion or by stepping outside of the capture volume. Also, when two non-unique Rigid Bodies are positioned in vicinity and overlap in the scene, their marker labels may get swapped. If this happens, additional efforts will be required for correcting the labels in post-processing of the data.
Multiple Rigid Bodies Tracking
Depending on the object, there could be limitations on marker placements and number of variations of unique placements that could be achieved. The following list provides sample methods for varying unique arrangements when tracking multiple Rigid Bodies.
1. Create Distinctive 2D Arrangements. Create distinctive, non-congruent, marker arrangements as the starting point for producing multiple variations, as shown in the examples above.
2. Vary heights. Use marker bases or posts, with different heights to introduce variations in elevation to create additional unique arrangements.
3. Vary Maximum Marker to Marker Distance. Increase or decrease the overall size of the marker arrangements.
4. Add Two (or more) Markers Lastly, if an additional variation is needed, add extra markers to introduce the uniqueness. We recommended adding at least two extra markers in case any of them is occluded.
A set of markers attached to a rigid object can be grouped and auto-labeled as a Rigid Body. This Rigid Body definition can be utilized in multiple takes to continuously auto-label the same Rigid Body markers. Motive recognizes the unique spatial relationship in the marker arrangement and automatically labels each marker to track the Rigid Body. At least three coordinates are required to define a plane in 3D space, and therefore, a minimum of three markers are essential for creating a Rigid Body.
Step 1.
Select all associated Rigid Body markers in the 3D viewport.
Step 2.
On the Builder pane, confirm that the selected markers match the markers that you wish to define the Rigid Body from.
Step 3.
Click Create to define a Rigid Body asset from the selected markers.
You can also create a Rigid Body by doing the following actions while the markers are selected:
Perspective View (3D viewport): While the markers are selected, right-click on the perspective view to access the context menu. Under the Rigid Body section, click Create From Selected Markers.
Hotkey: While the markers are selected, use the create Rigid Body hotkey (Default: Ctrl +T).
Step 4.
Once the Rigid Body asset is created, the markers will be colored (labeled) and interconnected to each other. The newly created Rigid Body will be listed under the Assets pane.
Defining Assets in Edit mode:
If the Rigid Bodies, or skeletons, are created in the Edit mode, the corresponding Take needs to be auto-labeled. Only then, the Rigid Body markers will be labeled using the Rigid Body asset and positions and orientations will be computed for each frame. If the 3D data have not been labeled after edits on the recorded data, the asset may not be tracked.
Rigid Body properties consist of various configurations of Rigid Body assets in Motive, and they determine how Rigid Bodies are tracked and displayed in Motive. For more information on each property, read through the Properties: Rigid Body page.
Default Properties
When a Rigid Body is first created, default Rigid Body properties are applied to the newly created assets. The default creation properties are configured under the Assets section in the Application Settings panel.
Modifying Properties
Properties for existing Rigid Body assets can be changed from the Properties pane.
An existing rigid body can be modified by adding or removing markers using the context menu.
First select a rigid body from the Assets pane or by selecting the pivot point in the Perspective View.
Ctrl + left-click the markers that you wish to add/remove.
Left-click on the Perspective View pane to open the rigid body context menu.
Under Rigid Body, choose Add/Remove selected markers to/from rigid body.
If needed, right-click on the rigid body and select Reset Pivot to relocate the pivot point to the new center.
Multiple Rigid Bodies
When multiple rigid bodies are selected, context-menu applies only to the primary rigid body selection only. The primary rigid body is the last rigid body you selected, and its name will show up on the bottom-right corner of the 3D viewport.
Created rigid body definitions can be modified using the editing tools in the Builder pane or by using the steps covered in the following sections.
The pivot point of a Rigid Body is used to define both position and orientation. When a rigid body is created, its pivot point is be placed at its geometric center by default, and its orientation axis will be aligned with the global coordinate axis. To view the pivot point and the orientation in the 3D viewport, set the Bone Orientation to true under the display settings of a selected Rigid Body in the Properties pane.
As mentioned previously, the orientation axis of a Rigid Body, by default, gets aligned with the global axis when the Rigid Body was first created. After a Rigid Body is created, its orientation can be adjusted by editing the Rigid Body orientation using the Builder pane or by using the GIZMO tools as described in the next section.
There are situations where the desired pivot point location is not at the center of a Rigid Body. The location of a pivot point can be adjusted by assigning it to a marker or by translating along the Rigid Body axis (x,y,z). For most accurate pivot point location, attach a marker on the desired pivot location, set the pivot point to the marker, and apply the translation for precise adjustments. If you are adjusting the pivot point after the capture, in the Edit mode, the Take will need to be auto-labeled again to apply the changes.
Using the gizmo tools from the perspective view options to easily modify the position and orientation of Rigid Body pivot points. You can translate and rotate Rigid Body pivot, assign pivot to a specific marker, and/or assign pivot to a mid-point among selected markers.
Select Tool (Hotkey: Q): Select tool for normal operations.
Translate Tool (Hotkey: W): Translate tool for moving the Rigid Body pivot point.
Rotate Tool (Hotkey: E): Rotate tool for reorienting the Rigid Body coordinate axis.
Scale Tool (Hotkey: R): Scale tool for resizing the Rigid Body pivot point.
Read through the Gizmo tools page for detailed information.
To assign the pivot point to a marker, first select the pivot point in the Perspective View pane, and CTRL select the marker that you wish to assign to. Then right-click to open the context menu, and in the rigid body section, click Set Pivot Point to Selected Marker.
To translate the pivot point, access the Rigid Body editing tools in the Builder pane while the Rigid Body is selected. In the Location section, you can input the amount of translation (in mm) that you wish to apply. Note that the translation will be applied along the x/y/z of the Rigid Body orientation axis. Resetting the translation will position the pivot point at the geometric center of the Rigid Body according to its marker positions.
If you wish to reset the pivot point, simply open the Rigid Body context menu in the Perspective pane and click Reset Pivot. The location of the pivot point will be reset back to the center of the Rigid Body again.
This feature is useful when tracking a spherical object (e.g. ball). The Spherical Pivot Placement feature in the Builder pane will assume that all the Rigid Body markers are placed on the surface of a spherical object, and the pivot point will be calculated and re-positioned accordingly. To do this, select a Rigid Body, access Modify tab in the Builder pane, and click Apply from the Spherical Pivot Placement.
Rigid Body tracking data can be either outputted onto a separate file or streamed to client applications in real-time:
Captured 6 DoF Rigid Body data can be exported into CSV, FBX, or BVH files. See: Data Export
You can also use one of the streaming plugins or use NatNet client applications to receive tracking data in real-time. See: NatNet SDK
Assets can be exported into Motive user profile (.MOTIVE) file if it needs to be re-imported. The user profile is a text-readable file that can contain various configuration settings in Motive; including the asset definitions.
When the asset definition(s) is exported to a MOTIVE user profile, it stores marker arrangements calibrated in each asset, and they can be imported into different takes without creating a new one in Motive. Note that these files specifically store the spatial relationship of each marker, and therefore, only the identical marker arrangements will be recognized and defined with the imported asset.
To export the assets, go to Files tab → Export Assets to export all of the assets in the Live-mode or in the current TAK file. You can also use Files tab → Export Profile to export other software settings including the assets.
This feature is supported in Live Mode only.
The Rigid Body refinement tool improves the accuracy of Rigid Body calculation in Motive. When a Rigid Body asset is initially created, Motive references only a single frame for defining the Rigid Body definition. The Rigid Body refinement tool allows Motive to collect additional samples in the live mode for achieving more accurate tracking results. More specifically, this feature improves the calculation of expected marker locations of the Rigid Body as well as the position and orientation of the Rigid Body itself.
Steps
Select View from the toolbar at the top, open the Builder pane.
Select the Rigid Bodies from the Type dropdown menu.
In Live mode, select an existing Rigid Body asset that you wish to refine from the Assets pane.
Hold the physical selected Rigid Body at the center of the capture volume so that as many cameras as possible can clearly capture the markers on the Rigid Body.
Click Start Refine in the Builder pane.
Slowly rotate the Rigid Body to collect samples at different orientations until the progress bar is full.
Once all necessary samples are collected, the refinement results will be displayed.
Assets pane: While the markers are selected in Motive, click on the add button in the Assets pane.
Position and orientation of a tracked Rigid Body can be monitored in real-time from the Info pane. You can simply select a Rigid Body in Motive, open the Info pane, and access the Rigid Bodies tool from the to view respective real-time tracking data of the selected Rigid Body.