Displays with Viewer Tracking for Vertical Parallax Correction

Organization Name

Apple Inc.

Inventor(s)

Pavel V. Dudrenov of San Francisco CA (US)

Zachary D. Corley of Newark CA (US)

Edwin Iskandar of San Jose CA (US)

Felipe Bacim De Araujo E Silva of San Jose CA (US)

Seung Wook Kim of San Jose CA (US)

Yang Li of San Jose CA (US)

Menelik Baye Yimam of San Jose CA (US)

Gilles M. Cadet of Agoura Hills CA (US)

Displays with Viewer Tracking for Vertical Parallax Correction - A simplified explanation of the abstract

This abstract first appeared for US patent application 18189542 titled 'Displays with Viewer Tracking for Vertical Parallax Correction

Simplified Explanation

An electronic device is described in this patent application that includes a stereoscopic display with lenticular lenses. These lenses allow for the viewing of three-dimensional images by the viewer. The display has different viewing zones to account for horizontal parallax as the viewer moves horizontally.

• The electronic device has a stereoscopic display with lenticular lenses.
• The lenticular lenses enable the viewer to perceive three-dimensional images.
• The display has different viewing zones to accommodate horizontal movement of the viewer.
• The display can be dimmed globally, blurred, or composited with a default image based on the viewer's vertical position.
• The display can render content that adjusts to the real-time vertical positions of multiple viewers.

Potential Applications

This technology could have various applications in industries such as:

• Entertainment: Enhanced 3D viewing experiences for movies, video games, and virtual reality.
• Education: Interactive and immersive learning experiences for subjects like anatomy or engineering.
• Design and Architecture: 3D visualization of buildings, interiors, and product prototypes.
• Medical Imaging: Improved visualization of 3D medical scans for diagnosis and treatment planning.

Problems Solved

This technology addresses several challenges:

• Limited 3D viewing angles: The different viewing zones allow for a wider range of viewing angles, enhancing the 3D experience.
• Vertical position detection: By detecting the viewer's vertical position, the display can adjust its settings to optimize the viewing experience.
• Real-time adjustment for multiple viewers: The display can render content that adapts to the vertical positions of multiple viewers, ensuring a consistent 3D experience for everyone.

Benefits

The benefits of this technology include:

• Enhanced 3D viewing: The lenticular lenses and different viewing zones provide a more immersive and realistic 3D experience.
• Customized viewing experience: The display can adjust its settings based on the viewer's vertical position, optimizing the image quality.
• Multi-user compatibility: The display can accommodate multiple viewers with different vertical positions, ensuring everyone can enjoy the 3D content.

Original Abstract Submitted

An electronic device may include a stereoscopic display with a plurality of lenticular lenses that extend across the length of the display. The lenticular lenses may be configured to enable stereoscopic viewing of the display such that a viewer perceives three-dimensional images. The display may have different viewing zones that account for horizontal parallax as a viewer moves horizontally relative to the display. The display may be dimmed globally, blurred, and/or composited with a default image based on the detected vertical position of the viewer. The display may render content that compensates for the real-time vertical positions of multiple viewers.