A computer-implemented method of sharing a screen amongst at least two users participating in a real-time communication and collaboration session via a communication network can be configured so that a screen displaying a first content can be shared by a user of a first client so as to be displayed at at least a second client used by a second user. Embodiments of the method can include receiving, at a control unit for controlling the communication and collaboration session, coordinates specifying the position of an intended item of the first content of the shared screen and receiving, at the control unit, a screenshot of the intended item and a predetermined surrounding area as a sample picture or as sample pixels.

A method, device and system for providing user-centric connections to a location including digital collaboration tools, as well as software for carrying out the method. The method including a network device having a beacon system for proximity detection and a BYOD (Bring Your Own Device). A confirmed BYOD proximity can be used to initiate the setup of a data channel between the network device and the BYOD, and further join the BYOD to a UC (Unified Communications systems and tools) session.

Audio conference participant identification is performed to identify audio-only participants and display information indicative of their identities within user interfaces of conferences. Name information of an audio-only caller accessing a first conference at a first time is determined to be unknown. The name information is stored in a record responsive to obtaining the name information from a device of the audio-only caller. The name information is displayed in a first user interface element of the first conference, where the first user interface element is associated with the audio-only caller. The name information is retrieved from the record responsive to the audio-only caller accessing a second conference at a second time after the first time. The name information is displayed in a second user interface element of the second conference associated with the audio-only caller.

A system for one-touch split-mode conference access includes a client, a server, a voice over internet protocol (VOIP) device and a telephony server. The client obtains information associated with a conference and transmits the information to the server. The server transmits the information to the VOIP device, which is paired to the client based on a user account. The VOIP device displays a notification based on the received information. The VOIP device obtains an input from the user. The input is based on the notification. The VOIP device transmits call information based on the input to the telephony server. The telephony server initiates the audio component of the conference on the VOIP device.

A method includes connecting a call from a client device to a destination having an interactive voice response service; transcribing audio from the destination during the call to identify menu options of the interactive voice response service; generating visualizations representing the menu options; and outputting the visualizations to a display associated with the client device. A system includes a telephony system, an automatic speech recognition processing tool, and a visualization output generation tool. The telephony system connects a call from a client device to a destination having an interactive voice response service. The automatic speech recognition processing tool transcribes audio from the destination during the call to identify menu options of the interactive voice response service. The visualization output generation tool generates visualizations representing the menu options. The telephony system outputs the visualizations to a display associated with the client device.

A wireless network transfers UE information to an authorization server. The authorization server generates an expected result based on a random number and secret key in response to the UE information. The authorization server transfers the expected result and the random number to the wireless network which transfers the random number to the UE. The wireless network receives an authentication result from the UE and authenticates the UE by matching the authentication result to the expected result. In response to network authentication, the wireless network transfers the expected result to a conferencing server. The conferencing server receives the authentication result from the UE and registers the UE by matching the authentication result to the expected result. The conferencing server establishes media conferences for the UE. The wireless network exchanges media for the UE. Advantageously, the wireless network efficiently eliminates redundant authentication tasks from the authorization server and conferencing server.

A digital conference system can include a digital conference manager that automatically selects a digital conference service based on one or more digital conference parameters. A digital conference agent can request a digital conference configuration from a policy manager 204 that is based on the one or more digital conference parameters. The policy manager 204 can send the selected digital conference configuration to the digital conference agent that sends the selected digital conference configuration or an identifier associated with a digital conference service associated with the digital conference configuration to a digital conference service manager. The digital conference service manager establishes a digital conference connection based on the digital conference service received from the digital conference agent. The digital conference service is automatically selected without requiring extensive knowledge by the user so as to provide a customized and enhanced digital conference without burdening the user.

An information processing system including a video device for displaying a video and a wireless terminal for communicating with the video device and communicating with other apparatuses via a network, wherein the video device transmits video information captured by a camera and sound information collected by a microphone when reception from the wireless terminal of information pertaining to a video to be displayed is detected, and outputs the received sound information using a speaker. The wireless terminal transmits information pertaining to the video to be displayed to the video device, the other apparatuses receive the captured video information and collected sound information via the network, and transmit information pertaining to the video to be displayed and information pertaining to the sound to be outputted.

A system may provide for the generation of spatial audio for audiovisual conferences, video conferences, etc. (referred to herein simply as “conferences”). Spatial audio may include audio encoding and/or decoding techniques in which a sound source may be specified at a location, such as on a two-dimensional plane and/or within a three-dimensional field, and/or in which a direction or target for a given sound source may be specified. A conference participant's position within a conference user interface (“UI”) may be set as the source of sound associated with the conference participant, such that different conference participants may be associated with different sound source positions within the conference UI.

Aspects of the subject disclosure may include, for example, receiving first imaging data corresponding to first images of a first plurality of first users, each of the first users being located at a first location; obtaining first hierarchical rank data, the first hierarchical rank data being indicative of a first hierarchical ranking of each of the first users relative to each other of the first users; generating, based at least in part upon the first imaging data and the first hierarchical rank data, second imaging data, and sending the second imaging data to a second location, the second location being separate from the first location, the second imaging data enabling a first holographic projector at the second location to present first holograms, the first holograms comprising one or more first emphasized images representing a first particular one of the first users who is ranked highest by the first hierarchical rank data, and the first holograms further comprising one or more first un-emphasized images representing one or more first other users of the first users who are not ranked highest by the first hierarchical rank data. Other embodiments are disclosed.