METHODS, APPARATUSES, SYSTEMS AND COMPUTER PROGRAM PRODUCTS FOR SMART MESSAGE DELIVERY AND SYSTEMS AND METHODS FOR CAPTURING MOMENTS IN THE PAST

Organization Name

META PLATFORMS, INC.

Inventor(s)

Alexander Faaborg of Mountain View CA (US)

Joseph Gardner of Burlingame CA (US)

Mark Chichester of San Francisco CA (US)

Scott Gary of Brooklyn NY (US)

METHODS, APPARATUSES, SYSTEMS AND COMPUTER PROGRAM PRODUCTS FOR SMART MESSAGE DELIVERY AND SYSTEMS AND METHODS FOR CAPTURING MOMENTS IN THE PAST - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240319784 titled 'METHODS, APPARATUSES, SYSTEMS AND COMPUTER PROGRAM PRODUCTS FOR SMART MESSAGE DELIVERY AND SYSTEMS AND METHODS FOR CAPTURING MOMENTS IN THE PAST

Abstract: This patent application describes systems and methods for smart message delivery for message handoff between communication devices and artificial reality systems. The technology involves detecting motion and position of the communication device and/or the head-mounted display (HMD) associated with a user, determining movement levels, and delivering messages based on predetermined thresholds.

• Communication devices or HMDs receive messages initiating motion detection.
• Movement levels are determined and compared to a threshold to decide on message delivery method.
• Messages are output via audio or text based on the movement level.
• The system monitors movement levels and adjusts message delivery accordingly.
• Messages may be output via text and audio in different formats for user convenience.

Potential Applications: This technology can be used in virtual reality gaming, augmented reality applications, remote communication systems, and interactive training simulations.

Problems Solved: The technology addresses the challenge of delivering messages effectively in dynamic environments where users may be moving or interacting with virtual content.

Benefits: Users can receive messages seamlessly while engaging with virtual environments, enhancing user experience and communication efficiency.

Commercial Applications: This technology can be applied in gaming, education, teleconferencing, and virtual collaboration tools, improving user engagement and interaction in virtual spaces.

Prior Art: Prior research may include studies on message delivery in virtual environments, motion tracking technologies, and user interaction with augmented reality systems.

Frequently Updated Research: Stay informed about advancements in motion tracking technology, virtual reality communication systems, and user interface design for augmented reality devices.

Questions about Smart Message Delivery Technology:

1. How does this technology improve user experience in virtual reality environments?

  - This technology enhances user experience by adapting message delivery based on user movement, ensuring messages are received effectively.

2. What are the potential challenges in implementing smart message delivery in augmented reality systems?

  - Challenges may include accurately tracking user movement, determining appropriate thresholds for message delivery, and integrating audio and text outputs seamlessly in virtual environments.

Original Abstract Submitted

systems and methods for smart message delivery for message handoff between communication devices and artificial reality systems are provided. in various examples, a communication device or hmd may receive a message initiating a detection of motion(s) and/or position(s) of the communication device and/or the hmd associated with a user with respect to each other. the communication device and/or the hmd may determine a movement level associated with each other, and based on the movement level relative to a predetermined threshold a message delivery process may be determined. if the predetermined threshold is not met, the message may be output to a user via audio and if the predetermined threshold is met, text associated with the message may be presented by the communication device for the user to read. the system may further monitor the movement level while the message is being output to the user, and if the predetermined threshold is no longer met, the message may be output to the user via audio by the hmd based on where the user stopped reading text of the message. in situations where the movement level increases to meet or exceed the predetermined threshold, the message may be output via text by the communication device, and the text corresponding to the portion of the message read aloud as audio by the hmd may be in a different format to enable the user to easily determine where to start reading the message.