One example system for providing notifications to videoconferencing sub-meetings includes a processor and at least one memory device. The processor establishes a videoconferencing session associated with a host. The videoconferencing session can include a main meeting, a sub-meeting, and a waiting queue. The processor can move the host from the main meeting to the sub-meeting, and subsequently move a new participant into the waiting queue. The processor can generate a notification that the participant has entered the waiting queue and determine that the host has moved to the sub-meeting. The processor can route, to the host in the sub-meeting using a stored connection of the host to the main meeting, a notification of the participant entering the waiting queue, and subsequently allow the host to admit the new participant.

Techniques described provide for transferring calls between a first user equipment (UE) and a second UE. One implementation may include receiving a request to transfer a call, which has been established between the first UE and a third party device, to be between a second UE and the third party device. Location information for the first and second UEs may be received. A determination may be made to determine whether the first and second UE are in proximity to each other. In the event that a determination is made that the first and second UE are in proximity to each other, the established call may be transferred from the first UE to the second UE. Other aspects and features are also claimed and described.

The present application discloses a streaming media data processing method, including: receiving streaming media data, initializing a storage file and a storage queue according to a header data packet of the streaming media data, and starting a first thread to receive an enqueuing operation; starting a second thread and establishing a message channel to read a streaming media data packet from the storage queue for parsing, and adding the parsed streaming media data packet into the message channel in the form of a message; starting a third thread to read the message from the message channel and encapsulating the message according to preset requirements so as to store the message on a disk; determining a target pull server corresponding to the streaming media data and publishing the streaming media data to the target pull server.

One example system for providing notifications to videoconferencing sub-meetings includes a processor and at least one memory device. The processor establishes a videoconferencing session associated with a host. The videoconferencing session can include a main meeting, a sub-meeting, and a waiting queue. The processor can move the host from the main meeting to the sub-meeting, and subsequently move a new participant into the waiting queue. The processor can generate a notification that the participant has entered the waiting queue and determine that the host has moved to the sub-meeting. The processor can route, to the host in the sub-meeting using a stored connection of the host to the main meeting, a notification of the participant entering the waiting queue, and subsequently allow the host to admit the new participant.

One example system for providing notifications to videoconferencing sub-meetings includes a processor and at least one memory device. The processor establishes a videoconferencing session associated with a host. The videoconferencing session can include a main meeting, a sub-meeting, and a waiting queue. The processor can move the host from the main meeting to the sub-meeting, and subsequently move a new participant into the waiting queue. The processor can generate a notification that the participant has entered the waiting queue and determine that the host has moved to the sub-meeting. The processor can route, to the host in the sub-meeting using a stored connection of the host to the main meeting, a notification of the participant entering the waiting queue, and subsequently allow the host to admit the new participant.

The method includes determining that the remote ambient call is established between an MCPTT first electronic device (100) and an MCPTT second electronic device (200) and sending a floor grant message to the MCPTT second electronic device (200) wherein the floor grant message includes mandatory acknowledgment required indication set for the MCPTT second electronic device (200) to share the location information of the MCPTT second electronic device (200) with the MCPTT first electronic device (100) by an MCPTT server (300). Further, the method includes receiving a floor grant acknowledgement message with the location information of the MCPTT second electronic device (200) and sharing the location information of the MCPTT second electronic device (200) with the MCPTT first electronic device (100) in the remote ambient call of the MCPTT service using a floor taken message by the MCPTT server (300).

A proxy method, a device, and a computer-readable storage medium are disclosed. The proxy method may include: obtaining transaction data of a user, the transaction data including a transaction request and private data; sending the transaction request to a blockchain platform, completing, by the blockchain platform, a transaction according to the transaction request, and storing the private data locally; and after the transaction is completed, sending the private data to a peer proxy for transaction verification.

The present disclosure relates to a communication method and system for converging a 5th-Generation (5G) communication system for supporting higher data rates beyond a 4th-Generation (4G) system with a technology for Internet of Things (IoT). The present disclosure may be applied to intelligent services based on the 5G communication technology and the IoT-related technology, such as smart home, smart building, smart city, smart car, connected car, health care, digital education, smart retail, security and safety services. Embodiments herein provide a system for establishing a first-to-answer call in a Mission Critical Push to Talk (MCPTT) communication. The system includes a MCPTT originating client configured to initiate a first-to-answer call and transmit a first-to-answer call request to a MCPTT server. The system includes the MCPTT server configured to receive the first-to-answer call request from the MCPTT client.

A media downlink transmission control method and a related device, the method including receiving a remote media reception message sent by an authorized terminal, where the remote media reception message includes a target user identifier, determining a first target media stream based on the remote media reception message, and sending the first target media stream to a destination terminal corresponding to the target user identifier.

Advances in computing and communication performance are commonly followed by applications that utilize such advances. Electronic conferences comprising audio and video may tax even the most advanced network and computing platforms when sufficient demand is placed on the conference. Accordingly, utilizing conference resources effectively and efficiently remains a concern. By allocating participating devices to either a push-to-talk group or a non-push to talk group, conference participants may selectively be enabled to contribute freely or limited to observe the conference. As a result, resources required to receive conference content from the participating devices may be allocated only to those that warrant such an allocation and not waste allocated resources that are not, or not currently, contributing to the conference content.