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 patent application describes a method for generating haptic and audio feedback responses based on touch inputs on two user interfaces.

• Processor displays communication interface on first and second user interfaces.
• Processor detects touch inputs on both user interfaces.
• Processor monitors the location of touch inputs on each interface.
• Processor calculates the distance between the touch inputs on the two interfaces.
• If the distance is below a predetermined threshold, the processor generates haptic and audio feedback responses on both interfaces.

Potential Applications: - Virtual reality systems - Gaming consoles - Mobile devices with touch screens

Problems Solved: - Enhancing user experience with haptic and audio feedback - Improving interaction in multi-interface systems

Benefits: - Immersive user experience - Enhanced feedback for touch interactions - Increased engagement and interactivity

Commercial Applications: Title: "Enhancing User Experience with Multi-Interface Feedback Technology" This technology can be used in various commercial applications such as virtual reality gaming, interactive displays, and mobile applications to provide users with a more engaging and interactive experience.

Questions about Multi-Interface Feedback Technology: 1. How does this technology improve user interaction in virtual reality systems?

  This technology enhances user immersion by providing haptic and audio feedback responses based on touch inputs on multiple interfaces.

2. What are the potential benefits of implementing this technology in mobile devices?

  By integrating this technology into mobile devices, users can experience more tactile and auditory feedback, enhancing their overall interaction with the device.

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.