Wireless communication systems and methods related to determining a new multimedia broadcast multicast service (MBMS) configuration for a MBMS that is backward compatible with a legacy MBMS configurations. A base station determines a MBMS configuration. The MBMS configuration includes at least one non-optional field that indicates compatibility with a first user equipment (UE) having a first MBMS capability or compatibility with a second UE having a second MBMS capability. The MBMS configuration also includes a sub-carrier spacing indication for a MBMS corresponding to the first MBMS capability or the second MBMS capability. The MBMS configuration is broadcasted to the first UE and the second UE.

Systems and methods for adaptive network selection are described. In some embodiments, an Information Handling System (IHS) may include a processor and a memory coupled to the processor, the memory having program instructions stored thereon that, upon execution, cause the IHS to: receive link capabilities for each of a plurality of communication links available to the IHS; receive link requirements for each of a plurality of applications executed by the IHS; and assign at least one of the plurality of applications to at least one of the plurality of communication links, at least in part, by matching a subset of link requirements to a subset of link capabilities.

Examples described herein provide a computer-implemented method that includes converting, by a first processing system, a binary data stream into a string using encoding. The method further includes advertising, by the first processing system, standard characteristics to a second processing system. The method further includes receiving, by the first processing system, a request from the second processing system for a payload size and payload characteristics for the data to be transmitted from the first processing system to the second processing system. The method further includes transmitting, by the first processing system, the payload size and the payload characteristics to the second processing system.

This disclosure describes systems, methods, and devices related to enhanced fine timing measurement protocol negotiation. A device may identify an enhanced fine timing measurement request received from a first device, the enhanced fine timing measurement request comprising one or more information elements associated with one or more multiple-input multiple-output (MIMO) parameters. The device may cause to send an enhanced fine timing measurement response to the first device. The device may identify a null data packet announcement associated with a location determination of the first device. The device may identify a null data packet received from the first device. The device may cause to send a null data packet feedback to the first device

Methods and apparatus for supporting active link status during LAN interface reset and reconfigurations. Under one aspect, during normal operations traffic is transmitted over an Ethernet link coupling a first link partner to a second link partner. In response to a network interface re-configuration event, transmission of traffic over the Ethernet link is paused while keeping the Physical layer (PHY) of the Ethernet link active. The configuration of the first link partner is updated while the transmission of traffic is paused and the PHY of the Ethernet link is active. Upon completion of the configuration update, the link partners resume transmission of traffic over the Ethernet link. Additional schemes are provided that support re-configuration of network interfaces that support link and per priority flow control. According to another aspect, separate power domains are used for the PHY and the MAC circuitry, enabling the MAC circuitry to be reset via a power cycle while maintaining power to the PHY circuitry.

There is provided an apparatus with means for issuing (S601) a request message to a first proxy function for forwarding to a network server. The means are further configured for receiving (S603) a response message from the first proxy function. The response message comprises information about a signalling capacity of the first proxy function.

A method can include negotiating a target wake time (TWT) with a TWT session period (TWT SP) duration and generating mask data that inhibits communications according to a second standard during at least a portion of TWT SP. A method can further include, by operation of second communication circuits, generating a communications mask from mask data received from WLAN circuits, in response to the timing signal, synchronizing the communications mask with the TWT SP, and in response to the communications mask, inhibiting communications according to the second standard during at least a portion of the TWT SP. Corresponding devices and systems are also disclosed.

A method, computer program, and computer system is provided for determining 3rd Generation Partnership Project (3GPP) Framework for Live Uplink Streaming (FLUS) sink capabilities. A capability description is signaled using at least a first attribute and a second attribute. The first attribute comprises a location from which the capability description can be retrieved. The second attribute comprises a descriptor that determines a FLUS sink capability. Signaling the descriptor and a scheme identifier of the descriptor enables interoperability between a FLUS sink and a source from a plurality of vendors.

Systems and methods for media processing and streaming are provided. A method is performed by a Network-Based Media Processing (NBMP) source of a Framework for Live Uplink Streaming (FLUS) system. The method includes obtaining descriptions of capabilities of a FLUS sink via a FLUS source; and sending, to an NBMP workflow manager of the FLUS system via a path that does not include the FLUS source and the FLUS sink, a request to create or modify a workflow of the FLUS system based on the descriptions of the capabilities obtained.

Disclosed are systems, apparatuses, processes, and computer-readable media for wireless communications. For example, a process may include receiving, at a network device (e.g., a vehicle or other type of network device), a plurality of messages using a first type of communication protocol, wherein the network device is part of a platoon including a plurality of network devices (e.g., a plurality of vehicles or other network device). The process may include generating, at the network device, a summary message summarizing the plurality of messages. The process may include transmitting the summary message using a second type of communication protocol.