SYSTEMS AND METHODS FOR GENERATING TIME LAPSE VIDEOS

Organization Name

GoPro, Inc.

Inventor(s)

Nicholas Ryan Gilmour of San Jose CA (US)

Jessica Bonner of San Francisco CA (US)

SYSTEMS AND METHODS FOR GENERATING TIME LAPSE VIDEOS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240046962 titled 'SYSTEMS AND METHODS FOR GENERATING TIME LAPSE VIDEOS

Simplified Explanation

The abstract of this patent application describes a technology related to spherical video content. It explains that spherical video content is visual content that can be viewed from different points of view as the viewer progresses through the content. The technology involves defining a path selection for the spherical video content, which includes moving a viewing window within the content to determine the extents of the visual content that can be viewed from a specific point of view. Additionally, the technology involves using time lapse parameter information to generate a time lapse video based on the video content, path information, and time lapse speed effect.

• Spherical video content is defined as visual content that can be viewed from different points of view as the viewer progresses through the content.
• Path information is used to define a path selection for the spherical video content, which involves moving a viewing window within the content.
• The viewing window determines the extents of the visual content that can be viewed from a specific point of view.
• Time lapse parameter information is used to generate a time lapse video based on the video content, path information, and time lapse speed effect.

Potential Applications:

• Virtual reality experiences: This technology can be used to create immersive virtual reality experiences where users can explore spherical video content from different perspectives.
• Cinematic storytelling: Filmmakers can use this technology to create unique and dynamic storytelling experiences by combining spherical video content with time lapse effects.
• Sports analysis: Coaches and analysts can use this technology to review and analyze spherical video content of sports events from different angles and perspectives.

Problems Solved:

• Limited perspective: Traditional video content restricts viewers to a fixed perspective, whereas this technology allows for a more immersive and interactive viewing experience by enabling viewers to explore the content from different points of view.
• Time lapse video creation: This technology simplifies the process of creating time lapse videos by automatically generating them based on the video content and user-defined parameters.

Benefits:

• Enhanced viewer engagement: Spherical video content and the ability to view it from different perspectives can enhance viewer engagement and provide a more immersive experience.
• Creative storytelling possibilities: The combination of spherical video content and time lapse effects opens up new possibilities for creative storytelling in various industries.
• Simplified time lapse video creation: The technology automates the process of creating time lapse videos, saving time and effort for content creators.

Original Abstract Submitted

video information may define spherical video content having a duration. spherical video content may define visual content viewable from a point of view as a function of progress through the spherical video content. path information may define a path selection for the spherical video content. path selection may include movement of a viewing window within the spherical video content. the viewing window may define extents of the visual content viewable from the point of view as the function of progress through the spherical video content. time lapse parameter information may define at least two of a time portion of the duration, an image sampling rate, and a time lapse speed effect. a time lapse video may be generated based on the video information, the path information, and the time lapse parameter information.