REVOLVING XR EYEWEAR DISPLAY

Organization Name

snap inc.

Inventor(s)

Branislav Micusik of St.Andrae-Woerdern (AT)

Georgios Evangelidis of Vienna (AT)

Ramzi Zahreddine of Denver CO (US)

REVOLVING XR EYEWEAR DISPLAY - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240176144 titled 'REVOLVING XR EYEWEAR DISPLAY

Simplified Explanation: The patent application describes an extended reality (XR) display system that utilizes a light emitting diode (LED) display controller and an LED near-eye display element to project virtual objects in an XR experience.

• The LED near-eye display element includes motors and an LED array connected to these motors.
• The LED display driver processes video data of the XR experience and generates LED array control signals to illuminate specific LEDs in a sequence.
• Simultaneously, the LED display driver sends synchronized motor control signals to the motors, allowing the LED near-eye display element to display the rendered virtual object accurately.

Key Features and Innovation:

• Integration of LED display technology with near-eye display elements for XR experiences.
• Precise control of LED array and motors to display virtual objects seamlessly.
• Simultaneous generation of LED array control signals and motor control signals for synchronized operation.

Potential Applications: The technology can be used in augmented reality (AR) and virtual reality (VR) devices, gaming consoles, medical simulations, and training applications.

Problems Solved:

• Ensures accurate and synchronized display of virtual objects in XR experiences.
• Enhances user immersion and interaction in AR and VR environments.

Benefits:

• Improved visual quality and realism in XR content.
• Enhanced user experience with precise and synchronized display technology.

Commercial Applications: Title: "Revolutionizing XR Display Technology: Commercial Applications and Market Impact" The technology can be applied in the development of advanced AR and VR headsets, entertainment systems, educational tools, and professional training equipment, potentially disrupting the XR display market.

Prior Art: No specific information on prior art related to this technology is provided in the abstract.

Frequently Updated Research: There is ongoing research in the field of XR display technologies, focusing on improving display quality, user experience, and application versatility.

Questions about XR Technology: Question 1: How does the LED display driver ensure precise control of the LED array and motors simultaneously? The LED display driver processes video data to generate LED array control signals for illuminating specific LEDs and synchronized motor control signals for the motors, ensuring accurate and synchronized display of virtual objects.

Question 2: What are the potential commercial applications of this XR display technology? The technology can be utilized in AR and VR devices, gaming consoles, medical simulations, and training applications, offering enhanced visual quality and user experience in various industries.

Original Abstract Submitted

an extended reality (xr) display system includes a light emitting diode (led) display controller, and a light emitting diode (led) near-eye display element operatively coupled to the led display driver. the led near-eye display element includes one or more motors and an led array operably connected to the one or more motors. during operation, the led display driver receives video data including a rendered virtual object of an xr experience and generates led array control signals based on the video data, the led array control signals causing one or more leds of the led array to be energized in a sequence. the led display driver also generates synchronized motor control signals and simultaneously communicates the led array control signals to the led array and the synchronized motor control signals to the one or more motors causing the led near-eye display element to display the rendered virtual object.