REMOTE SELFIE PHOTOGRAPHY SYSTEM AND ASSOCIATED METHODS

Organization Name

Colorvision International, Inc.

Inventor(s)

Henry Tyson of Orlando FL (US)

Bryan Wilkins of Sanford FL (US)

Jeffrey Jonathan Douglas of St. Cloud FL (US)

Jason Stanford Pinder of Winter Garden FL (US)

Sean Thomas Karp of Homosassa FL (US)

REMOTE SELFIE PHOTOGRAPHY SYSTEM AND ASSOCIATED METHODS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240040243 titled 'REMOTE SELFIE PHOTOGRAPHY SYSTEM AND ASSOCIATED METHODS

Simplified Explanation

The patent application describes a photography system that includes a camera with a geofenced region and a web server that provides a website to communicate with the camera and access the geofenced region coordinates. A mobile device with a processor can access the website, allow the website to access its location, and receive video from the camera through the website if the mobile device is within the geofenced region. The received video can be displayed on a display along with a user-selected input to operate the camera and take a photo.

• The system includes a camera with a geofenced region and a web server that provides a website.
• A mobile device with a processor can access the website and allow it to access the device's location.
• The mobile device can receive video from the camera through the website if it is within the geofenced region.
• The received video can be displayed on a display along with a user-selected input for operating the camera.

Potential applications of this technology:

• Remote photography: Users can control the camera and take photos remotely using their mobile devices.
• Geofenced photography: The camera can be set to only capture photos within a specific geographical area.
• Event photography: The system can be used to capture photos at specific events or locations.

Problems solved by this technology:

• Convenience: Users can control the camera and capture photos without physically being present at the camera location.
• Security: The geofenced region ensures that the camera only captures photos within a specific area, preventing unauthorized access.
• Accessibility: The system allows users to access and control the camera remotely, making it accessible to a wider range of users.

Benefits of this technology:

• Flexibility: Users can capture photos from various angles and locations without the need for physical presence.
• Efficiency: The system streamlines the process of capturing photos by allowing users to control the camera remotely.
• Enhanced user experience: The ability to view live video and operate the camera through a mobile device provides a more interactive and engaging photography experience.

Original Abstract Submitted

a photography system includes a camera having a geofenced region associated therewith, and a web server to provide a website to communicate with the camera and to access coordinates defining the geofenced region. a mobile device includes a processor to access the website via the web server, allow the website to access location of the mobile device, and receive video from the camera via the website in response to the location of the mobile device being within the geofenced region. a display is coupled to the processor to display the received video along with a user-selected input for a user to operate the camera to take a photo.