Content Manipulation via a Computer-Generated Representation of a Trackpad

Organization Name

Apple Inc.

Inventor(s)

Anette L. Freiin Von Kapri of Mountain View CA (US)

Aaron M. Burns of Sunnyvale CA (US)

Benjamin R. Blachnitsky of San Francisco CA (US)

Content Manipulation via a Computer-Generated Representation of a Trackpad - A simplified explanation of the abstract

This abstract first appeared for US patent application 18613570 titled 'Content Manipulation via a Computer-Generated Representation of a Trackpad

Simplified Explanation: The patent application describes a method that combines eye tracking data and spatial selector data to manipulate content on a physical surface using a computer-generated representation of a trackpad.

• Eye tracking data is used to determine the first gaze position within a content manipulation region.
• Spatial selector data is used to determine a selection point associated with a physical surface.
• A computer-generated representation of a trackpad is displayed on the physical surface based on the first gaze position and the selection point.
• The method allows for interaction with content manipulation regions and affordances through the trackpad representation.

Key Features and Innovation:

• Integration of eye tracking and spatial selector data for content manipulation.
• Display of a computer-generated trackpad on a physical surface for interaction.
• Association of the trackpad representation with specific content manipulation regions based on user input.

Potential Applications: This technology can be used in interactive displays, virtual reality systems, and user interfaces for enhanced content manipulation and interaction.

Problems Solved: The method addresses the need for intuitive and precise control of content on physical surfaces using a combination of eye tracking and spatial selector data.

Benefits:

• Improved user experience in interacting with content on physical surfaces.
• Enhanced precision and control in manipulating digital content.
• Potential for new and innovative user interface designs.

Commercial Applications: The technology can be applied in interactive kiosks, digital signage, educational displays, and gaming interfaces to provide users with a more intuitive and engaging experience.

Prior Art: Researchers and developers in the fields of human-computer interaction, eye tracking technology, and spatial tracking systems may have explored similar methods for content manipulation on physical surfaces.

Frequently Updated Research: Ongoing research in eye tracking technology, spatial tracking systems, and user interface design may contribute to advancements in the field of content manipulation on physical surfaces.

Questions about Content Manipulation on Physical Surfaces: 1. How does the method combine eye tracking and spatial selector data for content manipulation? 2. What are the potential applications of this technology in different industries?

Original Abstract Submitted

A method includes determining a first gaze position within a content manipulation region based on eye tracking data from an eye tracker. The method includes determining a selection point associated with a physical surface, based on spatial selector data from a spatial selector tracker. The method includes displaying a computer-generated representation of a trackpad on the physical surface, based on the first gaze position and the selection point. In some implementations, a method includes displaying a user interface including a plurality of content manipulation regions, a plurality of affordances respectively associated with the plurality of content manipulation regions, and a computer-generated representation of a trackpad. The method includes detecting, via a spatial selector tracker, an input directed to a first affordance associated with a first content manipulation region. The method includes associating the computer-generated representation of the trackpad with the first content manipulation region, based on the input.