Timeline-Video Relationship Presentation for Alert Events

Organization Name

google llc

Inventor(s)

Christopher Charles Burns of Santa Clara CA (US)

George Alban Heitz, Iii of Mountain View CA (US)

James Edward Stewart of Mountain View CA (US)

Cameron Hill of San Francisco CA (US)

Seungho Yang of Mountain View CA (US)

Joe Delone Venters of Alameda CA (US)

William Alex Finlayson of San Francisco CA (US)

Carsten Hinz of Sunnyvale CA (US)

Timothy Samuel Psiaki of Duvall WA (US)

Nathan Scott Klee of Kirkland WA (US)

Gregory Rourk Nelson of San Bruno CA (US)

Kevin James Avery of San Francisco CA (US)

Lawrence W. Neal of Oakland CA (US)

Martin Davidsson of Redwood City CA (US)

Timeline-Video Relationship Presentation for Alert Events - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240192834 titled 'Timeline-Video Relationship Presentation for Alert Events

Simplified Explanation

The patent application describes a method for an electronic device to display a live video stream in one region of the user interface and a corresponding timeline in another region. Users can interact to move the timeline to view different portions of the video stream.

• Displaying live video stream in one region of the user interface
• Showing a timeline in another region corresponding to a timespan of the video
• Allowing users to interact and move the timeline to view different parts of the video
• Transitioning to a new timeline when the user moves the timespan
• Displaying video frames representing the selected timespan during the transition

Potential Applications

This technology could be used in security systems, video editing software, live event streaming platforms, and virtual reality applications.

Problems Solved

This technology allows users to easily navigate and view specific parts of a live video stream, enhancing the user experience and increasing efficiency in analyzing video content.

Benefits

- Improved user experience in viewing live video streams - Enhanced efficiency in analyzing video content - Increased interactivity and control over video playback

Commercial Applications

The technology could be utilized in security systems for monitoring purposes, video editing software for precise editing, live event streaming platforms for interactive viewing experiences, and virtual reality applications for immersive content consumption.

Prior Art

Prior art related to this technology may include patents or research on interactive video playback interfaces and video streaming technologies.

Frequently Updated Research

Research on user interaction with live video streams and advancements in video streaming technologies could be relevant to this technology.

Questions about the Technology

How does this technology improve user interaction with live video streams?

This technology allows users to easily navigate and view specific parts of a live video stream by interacting with the timeline, enhancing their overall viewing experience.

What are the potential commercial applications of this technology?

The technology could be applied in security systems, video editing software, live event streaming platforms, and virtual reality applications to improve user experience and efficiency in video content analysis.

Original Abstract Submitted

a method at an electronic device with a display includes: displaying a user interface having a first region and a second region; receiving, and displaying in the first region of the user interface, a live video stream of a physical environment captured by a remote video camera; displaying, in the second region, a timeline corresponding to a timespan for a first portion of a duration during which the live video stream may have been recorded; in response to receiving a user interaction to move the timespan to a second portion of the duration, transitioning the displayed timeline to a new timeline that corresponds to the timespan for the second portion, and while transitioning, displaying, in the first region, a subset of video frames representing the first and/or second portion of the duration.