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(2) View Settings

Click the settings button on the top toolbar of the software and select "View Settings".

Lens View

  • Display Pixel Information: When enabled, hovering the mouse over the 2D view will display the pixel size.
  • Display IP: When enabled, the IP address of the lens will be displayed at the lower left corner of each view in the 2D view. The IP address displayed in the 2D view is consistent with the digital tube of the lens installed on the actual site.
  • Display Lens Model and Lens Version: When enabled, the model of the lens corresponding to this view and the program version of the lens will be displayed in the 2D view.
  • Display Lens Temperature: When enabled, the temperature of the lens will be displayed at the lower left corner of the 2D view. Note: Lenses of Pluto model and Mars1.3HW model do not have temperature display.
  • Calibration Track: This function is not checked by default in the software. When enabled, during T-shaped calibration, the calibration track will be displayed in the 2D view. Swinging the rod repeatedly in one area will cause the tracks to overlap repeatedly. When the set rod-swinging duration ends, the calibration tracks superimposed on each 2D view will also disappear.

3D view display settings

  • Marker Name: When enabled, selecting a named point in the 3D view will display the name of the Marker.
  • Markerset Name: When enabled, the names of all Markersets in the 3D view will be displayed.
  • Show Unnamed Markers: When enabled, unnamed points will be displayed in the 3D view. (Without special requirements, please do not change the default settings in the 3D view display settings window).
  • Skeleton: When enabled, the skeleton of the Markerset will be displayed in the 3D view.
  • Marker Connection Lines: When enabled, the connection lines of the Markerset in the 3D view will be displayed.
  • Skeleton Coordinate Axes: When enabled, the coordinate axes of the skeleton will be displayed in the 3D view.
  • Inverse Calculation Markers: When enabled, the inverse calculation points will be displayed in the 3D view.
  • Tracking Quality: When enabled, the tracking quality of the rigid body will be displayed in the 3D view.
  • Show Track: When enabled, select the Marker point for which you want to show the track in the 3D view. Move the Marker, and you can see the movement track of the Marker point. The track function can be used in both real-time mode and post-processing mode. Drag the module on the progress bar below to increase or decrease the length of the track displayed in the 3D view.
  • Show Area: When enabled, the currently set area (the area range set in Calibration - Settings - Target Area) will be displayed in the 3D view.
  • Show Lens: When enabled, a floating lens will be displayed above the 3D view, and the position of the lens is consistent with the actual position of the lens placement.
  • Show Coverage Area: When enabled, the "coverage area" of the lens will be displayed in real-time in the 3D view. If " Coverage Area" is checked in post-processing, the coverage area of the lens will not be displayed in the 3D view.
  • Show Lens Rays: Enable "Show Lens Rays" when the software is playing and not in the frozen frame state. Select a named point in the 3D view, and a ray will be displayed between this point and the lens involved in the reconstruction of this Marker point. "Lens Field of View Ray Length": Modify the length value, and the length of the field of view ray of the floating lens above the 3D view will change.
  • Center of Mass: After creating the Helen Hayes full-body model in real-time mode, enable the center of mass, and the center of mass of the Helen Hayes model will be displayed in the 3D view.
  • Video Data Overlay: After calibrating the reference video, control whether the named points and connection lines are overlaid and displayed in the reference video.
  • Exclude Marked Points: When enabled, all named and unnamed points outside the area will be blocked.
  • Lens Field of View Ray Length: The default length is 120. After modifying the length, the ray of the lens model above the 3D view will also change.
  • Marker Diameter: The default Marker diameter is 15mm. (Without special requirements, we recommend that users do not change the value here casually. You can consult our technical engineers before making changes). If the user is using an 8mm or other specification Marker ball, and the reconstructed Marker point in the 3D view jitters or the recognition is unstable, the Marker diameter value can be modified to 8 or set according to the size of the used Marker ball. The larger the set Marker diameter value, the larger the diameter of the Marker point in the 3D view will be, and vice versa, the Marker diameter will decrease.