Methods, computer-readable media and apparatuses for sharing an experience via a social network on demand are disclosed. A processor establishes a first video session with a mobile endpoint device of a user, the first video session is established after the mobile endpoint device is authenticated as being allowed to capture a video of a live event at a commercial venue, the first video session containing the video of the live event at the commercial venue that the user is attending, receives at least one social media connection of the user for receiving the video, sends a notification to each social media connection of the at least one social media connection that the video is available, receives a request from the at least one social media connection to access the video, and establishes a second video session with an endpoint device of the at least social media connection.

Methods, computer-readable media and apparatuses for sharing an experience via a social network on demand are disclosed. A processor establishes a first video session with a mobile endpoint device of a user, the first video session is established after the mobile endpoint device is authenticated as being allowed to capture a video of a live event at a commercial venue, the first video session containing the video of the live event at the commercial venue that the user is attending, receives at least one social media connection of the user for receiving the video, sends a notification to each social media connection of the at least one social media connection that the video is available, receives a request from the at least one social media connection to access the video, and establishes a second video session with an endpoint device of the at least social media connection.

Systems and methods related to core network and Radio Access Network (RAN) interactions for a Multicast/Broadcast (MB) session are disclosed herein. In one embodiment, a method performed by an Access and Mobility Management Function (AMF) for a MB session join procedure comprises receiving a MB session join request from a User Equipment (UE) via a RAN node, the MB session join request being a request to join a particular MB session. The method further comprises determining that the MB session join request is permitted by a subscription of the UE, selecting a MB Session Management Function (MB-SMF) based on information comprised in the MB session join request, communicating with the MB-SMF to create a MB session context in the AMF and an MB session context in the MB-SMF, and sending a MB session join accept message to the UE.

Active-active standby is maintained for communication sessions using session initiation protocol (SIP) processes between two active session zones in a first datacenter and a standby session zone in a second datacenter. In the event of a failure at a first active session zone at the first datacenter, a failover to the second active session zone at the first datacenter is performed such that there are no interruptions in the active sessions. In the event of a failure at both active session zones at the first datacenter, a failover to the second datacenter is performed.

A first carrier may support inbound roaming requests for subscribers of a trusted second carrier. For example, the first carrier may receive an inbound roaming request from a UE. The first carrier may determine a second carrier that is a home carrier of the UE is a trusted carrier associated with the first carrier. In response, an IMS procedure associated with the UE may be performed including communicating, by a first CSCF node of the first carrier, with a first HSS of the second carrier, using a same protocol as used by the first CSCF node to communicate with a second HSS of the first carrier and communicating, by the first CSCF node, with a first AS of the second carrier, using a same protocol as used by the first CSCF node to communicate with a second AS of the first carrier.

A first carrier may support inbound roaming requests for subscribers of a trusted second carrier. For example, the first carrier may receive an inbound roaming request from a UE. The first carrier may determine a second carrier that is a home carrier of the UE is a trusted carrier associated with the first carrier. In response, an IMS procedure associated with the UE may be performed including communicating, by a first CSCF node of the first carrier, with a first HSS of the second carrier, using a same protocol as used by the first CSCF node to communicate with a second HSS of the first carrier and communicating, by the first CSCF node, with a first AS of the second carrier, using a same protocol as used by the first CSCF node to communicate with a second AS of the first carrier.

An apparatus, system, method, and computer-readable recording medium transfer a media session from a companion device to a media hub device connected in a network. A swipe operation is performed on the companion device, and a scan request is transmitted from the companion device to media hub devices connected in the network. The companion device receives a response packet from each media hub device based on the scan request. Each response packet includes a media access control (MAC) address. The companion device calculates a received signal strength indicator (RSSI) indicating signal strengths of the media hub devices based on each response packet, and determines a media hub device having a strongest signal strength. A media session executing on the companion device is then transferred over IP to the media hub device having the strongest signal strength.

Methods, apparatus, systems, and articles of manufacture to accurately credit streaming sessions are disclosed. A meter device records streaming session information. Cluster creation circuitry trains a model by grouping information from multiple streaming sessions into clusters, wherein all streaming sessions within a given cluster have matching media and streaming sources. Model executor circuitry assigns incoming streaming session information to a cluster or to noise. Cluster creation circuitry edits the model by creating new clusters out of information from multiple streaming sessions with similar attributes that were originally labeled as noise. By only crediting streaming session information assigned to a cluster, the disclosed system avoids crediting illogical streaming session information, such as the crediting of media to a streaming source that does not offer said media.

Techniques for enabling access to external data of a user for facilitating communications via a communication platform are described herein. A user of the communication platform maintains external data with a third-party service provider. The communication platform receives, in association with a user account of the user, an indication of intent to grant the communication platform access to the external data and an authorization code (the “code”). The communication platform later receives, from the first user account, a request to access the external data. For example, the request can include an input corresponding to an intended recipient of a message. In response to the input, the communication platform sends a request, with the code, to the third-party service provider to obtain contact data associated with the intended recipient and causes the contact data to be presented in association with the message, such as in a “To” field of the message.

A system provides automated transitions between presenters of a communication session. During a meeting, a system can provide a user interface that includes a primary presenter region configured to display a rendering of a presenter and the presenter's shared content. The user interface can also provide an audience region, which may include a number of individual video streams of audience members arranged in virtual environment. When the system determines that an individual audience member raises their hand, the system generates a graphical notification indicating that the person raised their hand. The system can also automatically add that individual audience member to a presenter queue. When the first presenter completes their presentation, the system can automatically transition the user listed in the presenter queue to the primary presenter region or a secondary presenter region. The system can also automatically change permissions for users that initiate a transition to a presenter role.