REAL-TIME COMMUNICATION INTERFACE WITH HAPTIC AND AUDIO FEEDBACK RESPONSE

Organization Name

Snap Inc.

Inventor(s)

Alexander P. Powell of Oakland CA (US)

Mark Thomas of Playa Vista CA (US)

REAL-TIME COMMUNICATION INTERFACE WITH HAPTIC AND AUDIO FEEDBACK RESPONSE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240231500 titled 'REAL-TIME COMMUNICATION INTERFACE WITH HAPTIC AND AUDIO FEEDBACK RESPONSE

The method described in the abstract involves a processor detecting touch inputs on two different user interfaces, monitoring the locations of these inputs, and generating haptic and audio feedback responses based on the distance between them.

• Processor detects touch inputs on two user interfaces
• Monitors locations of touch inputs
• Determines distance between touch input locations
• Generates haptic and audio feedback responses based on distance
• Enhances user experience through synchronized feedback

Potential Applications: - Virtual reality systems - Gaming consoles - Interactive displays - Educational tools - Rehabilitation devices

Problems Solved: - Enhances user engagement - Improves feedback accuracy - Creates immersive experiences

Benefits: - Enhanced user experience - Improved interaction - Real-time feedback - Increased engagement

Commercial Applications: Title: "Enhancing User Experience Through Synchronized Feedback" This technology can be utilized in various industries such as gaming, virtual reality, education, and healthcare to provide users with a more immersive and interactive experience. The market implications include increased demand for devices and systems that offer synchronized haptic and audio feedback.

Questions about the technology: 1. How does this technology improve user engagement?

  - This technology enhances user engagement by providing synchronized haptic and audio feedback responses, creating a more immersive experience.

2. What are the potential applications of this technology in the healthcare industry?

  - This technology can be used in rehabilitation devices to provide patients with interactive feedback during therapy sessions.

Original Abstract Submitted

method for generating haptic and audio feedback responses starts with processor causing communication interface for communication session to be displayed on first user interface and on a second user interface. processor detects first touch input on first user interface and second touch input on second user interface. processor monitors location of the first touch input on the first user interface and location of the second touch input on the second user interface. processor determines distance between location of first touch input on first user interface and location on first user interface corresponding to location of second touch input on second user interface. in response to determining that the distance is below predetermined threshold, processor causes first user interface and second user interface to generate an initial haptic feedback response and an initial audio feedback response. other embodiments are described herein.