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Table of Contents

Welcome
- What’s new in 5.4.6
- What’s new in 5.4.4
- What is Motion?
- Motion workflow
- Motion interface
- Basic components of Motion
- Using input devices
- Intro to creating projects
- Create a new project
- Open an existing project
- Search for projects from the Finder
- Bypass the Project Browser
- Create and modify project presets
- Save, autosave, and revert projects
- Intro to adding and managing content
- Intro to project playback
- Define the play range
- Project playback performance
- Intro to basic compositing
- - Modify layer opacity
- Intro to 3D compositing
- - Intro to 3D coordinates
  - Relative coordinates
- Transform layers in 3D space
- - Create 3D intersection
  - 2D and 3D group properties
- Intro to the Timeline
- Display or resize the Timing pane
- Navigate in the Timeline
- Show and modify keyframes in the Timeline
- - Intro to the Timeline ruler
  - Edit a range of frames in the Timeline
- Edit in the mini-Timeline
- Intro to behaviors
- Behaviors versus keyframes
- - Browse for behaviors
- - Intro to adjusting behaviors
  - Adjust behaviors
- Intro to keyframing
- Add keyframes
- - Add an animation path in the canvas
  - Modify animation paths
- Animate from the HUD
- - Apply keyframes to behaviors
  - Combining keyframes and behaviors
- Use the mini-curve editor
- Animate on the fly
- Simplify a keyframe curve
- Intro to Final Cut Pro templates
- - Template workflow
  - Placeholders vs. drop zones
- - Create a generator template
  - Modify a Final Cut Pro generator
- - Convert a Motion project to Final Cut Pro
  - Convert a template to another type
- Use placeholder images in templates
- Set template resolution
- Add multiple aspect ratios to templates
- Override the Final Cut Pro color space
- Where are templates saved?
- Using masks in templates
- Guidelines for better templates
- Intro to rigging
- How does rigging work?
- Build a simple rig
- Work with widgets
- Control rigs from Animation menus
- Publish rigs to Final Cut Pro
- Intro to Particles
- - Add a particle system
  - Anatomy of a particle emitter
- Create 3D particles
- Particle system timing
- Using graphics in particle systems
- Using filters and masks with particles
- Save custom particle effects
- Intro to replicators
- Replicators vs. particle systems
- - Add a replicator
  - Anatomy of a replicator
- Work with 3D replicators
- Replicator timing
- Using filters and masks with replicators
- Save custom replicators
- Intro to basic text
- Select and modify text in the canvas
- Preview and apply fonts
- Use preset text styles
- - Intro to editing text
  - Display the Text Inspector or HUD
- Convert standard text to 3D text
- Check spelling
- Find and replace text
- Using filters with text
- Intro to 3D text
- 3D text workflow
- - Add 3D text
  - Convert 2D text to 3D text
- Apply a preset 3D text style
- Move and rotate 3D text
- Add a glow or drop shadow to 3D text
- 3D text intersection
- Intro to animated text
- Apply a text behavior
- - Use the Scroll Text behavior
  - Scroll Text controls
- - Use the Text Tracking behavior
  - Text Tracking controls
- - Use the Type On behavior
  - Type On controls
- Animate individual text glyphs
- Animating 2D text in 3D space
- When to use keyframes to animate text
- Adding nontext behaviors to text
- Save a modified text behavior
- Intro to shapes, masks, and paint strokes
- - Intro to complex shapes and masks
  - Draw complex shapes and masks
- Edit fill, outline, and feathering
- Keyframe shape control points
- Convert between shapes and masks
- Using filters and masks with shapes
- Copy shape styles
- Save custom shapes and shape styles
- Intro to using generators
- Add a generator
- - Modify or animate a generator
  - Controls common to all generators
- Save a modified generator
- Intro to filters
- Browse and preview filters
- Apply or remove filters
- - Animate filter parameters with keyframes
  - Animate filters using behaviors
- Publish filter parameters to Final Cut Pro
- Using filters on alpha channels
- Filter performance
- Save custom filters
- Intro to color keying
- - Intro to the Luma Keyer filter
  - Luma Keyer filter controls
- Intro to 3D objects
- Add a 3D object
- Move and rotate a 3D object
- Reposition a 3D object’s anchor point
- Exchange a 3D object file
- 3D object intersection and layer order
- - Intro to 3D object timing
  - Modify 3D object timing in Motion
- Using cameras and lights with 3D objects
- Save custom 3D objects
- Guidelines for working with 3D objects
- Working with imported 3D objects
- Intro to 360-degree video
- 360-degree projects
- Create 360-degree projects
- Add 360-degree video to a project
- - View 360-degree projects
  - View 360-degree video in a VR headset
- - Intro to graphics in 360-degree projects
  - Use graphics in 360-degree projects
- Create a tiny planet effect
- Reorient 360-degree media
- Creating 360-degree templates for Final Cut Pro
- 360-degree-aware filters and generators
- Export and share 360-degree projects
- Guidelines for better 360-degree projects
- Intro to tracking
- How does motion tracking work?
- Motion tracking behavior types
- Analyze motion in a clip
- Stabilize a shaky clip
- Unstabilize a clip
- Use a range of frames for analysis
- Load existing tracking data
- Track shapes, masks, and paint strokes
- Track a filter’s position parameter
- Adjust onscreen trackers
- Save tracks to the Library
- Intro to audio
- View audio files
- Add audio files
- Play audio files
- Intro to exporting projects
- Export a QuickTime movie
- Export audio only
- Export a still image
- Export an image sequence
- Export to Apple devices
- Export to email
- Export using Compressor
- Create share destinations
- Render settings
- View the status of shared items
- Share notifications
- Intro to preferences and shortcuts
- Touch Bar shortcuts
- Move assets to another computer
- Work with GPUs
Glossary
Copyright

How does motion tracking work?

The tracking behaviors in Motion analyze an area of pixels known as a reference pattern over a range of frames in a movie clip to “lock onto” the pattern as it moves across the canvas. You specify the reference pattern to be analyzed and “tracked” by dragging one or more onscreen trackers (a red crosshair in a circle, shown below) to the area of the clip you want to analyze. Motion then analyzes the motion of the designated reference pattern for a specified duration of time. This duration is based on the length of the tracking behavior, the length of the defined play range, or the length of the clip.

Tracker

Ideally, the reference pattern should be a consistent, easily identifiable detail with high contrast. This makes the pattern easier to track.

During the analysis, the tracker advances to each subsequent frame, sampling many positions in the search region around the center point of the tracker. Some of those positions fit the designated reference pattern more closely than others; the tracker finds the position where the search region most closely matches the reference pattern (with subpixel accuracy). For every frame analyzed, the tracker assigns a correlation value by measuring how close the best match is.

In addition to searching for the reference pattern’s position, the tracker identifies how the pattern transforms (scales, rotates, or shears) from one frame to the next. Imagine you’re tracking a logo on the shirt sleeve of a person walking past the camera. If the person turns slightly as he passes the camera, the reference pattern rotates. The tracker looks for the reference pattern and any shifts in that pattern’s scale or rotation.

As it analyzes motion in your project, Motion records the data, which you can then apply to any other object in your project.

The more trackers you use, the more spatial information you’ll record: One-point tracking records position data; two-point tracking and four-point tracking record position, rotation, and scale data (by comparing the relative change between the points); multiple-point tracking can record all the control points (vertices) on a shape.

Tracking in Motion is planar; in other words, tracking does not occur in Z space (depth). For example, when you analyze two features in a clip—and that clip is moving in 3D space—you record the changes in position, scale, or rotation over time in the clip, but not its actual 3D transformation.

Note: The Stabilize behavior (in the Motion Tracking category of behaviors) uses an advanced technology that analyzes the motion of the entire frame of a clip, without the use of trackers.

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