Abstract: A system includes a common display, a display computer to run collaboration software connected to the common display that drives the common display, the display computer being on a first network, a first mobile device to run a sharing application and a streaming application, the first mobile device being on a second network, separate from the first network, the streaming application to convert a display of the mobile device into stream data, a control channel between the mobile device and the display computer, and a stream channel between the display computer and the mobile device. The mobile device sends stream data directly to the display computer, wherein the display computer is to display the stream data on the common display. The stream channel may be directly between the mobile device and the display computer or may be over a relay server.
Abstract: A system includes a screen, and a computer that detects an object near the screen through use of a camera on the object without using a visible code on the object and that sets up a dedicated link between the object and the computer.
Abstract: A system including a large format display, a display computer storing a plurality of files to be displayed on the display, and a mobile device application loaded onto a mobile device, the mobile device application to load and store user information for more than one user, to generate a list of user information, and to share the list of user information with the display computer and other mobile devices having the mobile device application thereon.
Abstract: A method of connecting a mobile device to a common display associated with a display computer controlling the common display, including, for each mobile device downloading a display application onto the mobile device, selecting the display computer for the common display in the display application, connecting the mobile device to the display computer, selecting, on the mobile device, what is to be displayed on the common display, and sending a data stream of the selection to the display computer to be displayed in a window on the common display corresponding to the mobile device.
Abstract: A method of connecting a mobile device to a common display associated with a display computer controlling the common display, including, for each mobile device downloading a display application onto the mobile device, selecting the display computer for the common display in the display application, connecting the mobile device to the display computer, selecting, on the mobile device, what is to be displayed on the common display, and sending a data stream of the selection to the display computer to be displayed in a window on the common display corresponding to the mobile device.
Abstract: A system includes a display in a setting, the display being mounted vertically on a wall in the setting, a camera structure mounted on the wall on which the display is mounted, and a processor. The processor may count a number of people passing the digital display and within the view of the display even when people are not looking at the display. The processor may process an image form the camera structure to detect faces to determine the number of people within the field of view (FOV) of the display at any given time. The processor may dynamically change a resolution on the display based on information supplied by the camera.
Abstract: A multiuser, multi-interface computing system includes a computer system, and a continuous substrate including a first surface and a second surface. The substrate includes at least two touch sensitive regions, each touch sensitive region including a continuous touch sensitive surface that covers at least a portion of at least one display and an individual interface for selecting applications. The touch sensitive surface is configured to serve as the primary input to the computer system. The continuous substrate is transparent within the touch sensitive regions. The multiuser, multi-interface computing system is configured so that the at least two users can use the touch sensitive regions simultaneously.
Abstract: A multiuser, multi-interface computing system includes a computer system, and a continuous substrate including a first surface and a second surface. The substrate includes at least two touch sensitive regions, each touch sensitive region including a continuous touch sensitive surface that covers at least a portion of at least one display and an individual interface for selecting applications. The touch sensitive surface is configured to serve as the primary input to the computer system. The continuous substrate is transparent within the touch sensitive regions. The multiuser, multi-interface computing system is configured so that the at least two users can use the touch sensitive regions simultaneously.
Abstract: In a computing environment, a method for processing inputs from different users across multiple application windows resulting in a multi-user graphical user interface (GUI), the computing environment running an operating system (OS) designed to run with a single user GUI, the method including determining, in a primary application, separate from the OS, that a first user input corresponds to a first window and a second user input corresponds to a second window, the primary application sending the first and second user inputs to first and second secondary applications that run in parallel with the primary application, the first and second secondary applications being designed to run with the OS.
Type:
Application
Filed:
January 8, 2021
Publication date:
May 27, 2021
Applicant:
T1V, INC.
Inventors:
Michael R. FELDMAN, James E. MORRIS, Ron GILSON, Todd EAGLIN
Abstract: A first or second computer viewing a virtual canvas may be a host computer for a live source object requiring authorization between a host and a non-host computer by creating a live source window for the live source object requiring authorization (ARLSW) within the virtual canvas on the host computer, sending metadata information for the ARLSW to the non-host computer so that the ARLSW is at the same location on the virtual canvas for the first and second computers, and streaming the live source object requiring authorization to the ARLSW from the host computer to the non-host computer. When the host computer for the ARLSW leaves the virtual canvas and no other non-host computer for ARLSW in the canvas is known to have authorization to view the ARLSW, a placeholder screen is displayed in the ARLSW on the virtual canvas.
Abstract: A first or second computer viewing a virtual canvas may be a host computer for a live source object requiring authorization between a host and a non-host computer by creating a live source window for the live source object requiring authorization (ARLSW) within the virtual canvas on the host computer, sending metadata information for the ARLSW to the non-host computer so that the ARLSW is at the same location on the virtual canvas for the first and second computers, and streaming the live source object requiring authorization to the ARLSW from the host computer to the non-host computer. When the host computer for the ARLSW leaves the virtual canvas and no other non-host computer for ARLSW in the canvas is known to have authorization to view the ARLSW, a placeholder screen is displayed in the ARLSW on the virtual canvas.
Abstract: A system includes a common display, a display computer to run collaboration software connected to the common display that drives the common display, the display computer being on a first network, a first mobile device to run a sharing application and a streaming application, the first mobile device being on a second network, separate from the first network, the streaming application to convert a display of the mobile device into stream data, a control channel between the mobile device and the display computer, and a stream channel between the display computer and the mobile device. The mobile device sends stream data directly to the display computer, wherein the display computer is to display the stream data on the common display. The stream channel may be directly between the mobile device and the display computer or may be over a relay server.
Abstract: A first or second computer viewing a virtual canvas may be a host computer for a live source object requiring authorization between a host and a non-host computer by creating a live source window for the live source object requiring authorization (ARLSW) within the virtual canvas on the host computer, sending metadata information for the ARLSW to the non-host computer so that the ARLSW is at the same location on the virtual canvas for the first and second computers, and streaming the live source object requiring authorization to the ARLSW from the host computer to the non-host computer. When the host computer for the ARLSW leaves the virtual canvas and no other non-host computer for ARLSW in the canvas is known to have authorization to view the ARLSW, a placeholder screen is displayed in the ARLSW on the virtual canvas.
Abstract: A system includes a common display, a display computer to run collaboration software connected to the common display that drives the common display, the display computer being on a first network, a first mobile device to run a sharing application and a streaming application, the first mobile device being on a second network, separate from the first network, the streaming application to convert a display of the mobile device into stream data, a control channel between the mobile device and the display computer, and a stream channel between the display computer and the mobile device. The mobile device sends stream data directly to the display computer, wherein the display computer is to display the stream data on the common display. The stream channel may be directly between the mobile device and the display computer or may be over a relay server.
Abstract: A system includes a room display in a room that displays a remote window for a first remote participant that is not in the room using a video conferencing application, the room display being controlled by a server, a room microphone, a room speaker, and a room camera. The server runs a host application that receives a room video feed from the room camera and a room audio feed from the room microphone, receives a first video feed and a first audio feed from a first mobile device in the room, receives a second video feed and a second audio feed from a second mobile device in the room, detects a volume of the first audio feed and the second audio feed, sends a selected video feed associated with a loudest audio feed to the video conferencing application.
Abstract: A method of collaborating between a first display computer associated with a first display at a first location and a second display computer associated with a second display at a second location includes establishing a connection between the first and second display computers, opening a virtual canvas to be shared by the first and second display computers, the virtual canvas to be displayed on the first and second displays simultaneously, and sending an object between the first and second display computers by sending data associated with the object on the virtual canvas stored on the first display computer from the first display computer to the second display computer to be stored locally, thereby creating a shared canvas, wherein objects are at a single location on the shared canvas Live objects are treated differently than non-live objects.
Abstract: In a computing environment, a method for processing inputs from different users across multiple application windows resulting in a multi-user graphical user interface (GUI), the computing environment running an operating system (OS) designed to run with a single user GUI, the method including determining, in a primary application, separate from the OS, that a first user input corresponds to a first window and a second user input corresponds to a second window, the primary application sending the first and second user inputs to first and second secondary applications that run in parallel with the primary application, the first and second secondary applications being designed to run with the OS.
Type:
Grant
Filed:
January 8, 2021
Date of Patent:
January 31, 2023
Assignee:
T1V, INC.
Inventors:
Michael R. Feldman, James E. Morris, Ron Gilson, Todd Eaglin