An improved autonegotiation approach includes determining that a negotiated rate between a first network device and a second network device exceeds data transfer capacity over a network path downstream of the second network device. In response, a configuration message is generated and transmitted to the first network device. When received by the first network device, the configuration message causes the first network device to limit data transfer between the first network device and the second network device to no more than the downstream data transfer capacity.

In one embodiment, a switch includes a processor and logic integrated with and/or executable by the processor to receive details about which link aggregation (LAG) information about a first peer switch will be exchanged with the switch, send to the first peer switch, prior to receiving the LAG information about the first peer switch, details about which LAG information about the switch will be exchanged with the first peer switch, receive the LAG information about the first peer switch, store the LAG information about the first peer switch, and use the LAG information about the first peer switch and the LAG information about the switch to determine load balancing across one or more connections between the switch and the first peer switch.

A method may comprise receiving subscription messages from first, second and third mobile wireless devices. A first request may be received from the first mobile wireless device, that includes at least information corresponding to a second mobile phone number of the second mobile wireless device. A first response may be sent in response to the first request. During the time between receiving the first request and sending the first response, the second mobile wireless device may not be connected to the service. The method may further comprise receiving, via the service, a first message from the first mobile wireless device, in accordance with the first response. The first message may be for the second mobile wireless device. The first message may be queued on a server associated with the service.

A method may comprise receiving subscription messages from first, second and third mobile wireless devices. A first request may be received from the first mobile wireless device, that includes at least information corresponding to a second mobile phone number of the second mobile wireless device. A first response may be sent in response to the first request. During the time between receiving the first request and sending the first response, the second mobile wireless device may not be connected to the service. The method may further comprise receiving, via the service, a first message from the first mobile wireless device, in accordance with the first response. The first message may be for the second mobile wireless device. The first message may be queued on a server associated with the service.

In a wireless local area network (LAN) system, a station (STA) receives, from an access point (AP), channel information related to a multilink, and the channel information may include link identifier information of a plurality of links included in the multilink. The STA transmits, to the AP, link selection information on the basis of the channel information, and the link selection information may include information related to whether the STA can use each of the plurality of links, and information related to whether the STA uses each of the plurality of links for data transmission.

A method performed by a network node, for handling an outgoing call from a first user in a communications network. The network node receives a request for the outgoing call to be set up via a first persona out of multiple personas associated with the first user, which request is obtained as a voice instruction from the first user via a Digital Assistant device. The voice instruction comprises a personalized name associated with the first persona of the first user. The network node identifies among the multiple personas associated with the first user, an Internet Protocol Multimedia Subsystem (IMS) user ID corresponding to the first persona based on the personalized name received in the voice instruction. The network node sends to an IMS node in the communications network, the identified IMS user ID, and a request to initiate the outgoing call via the first persona of the first user.

A method performed by a network node, for handling an outgoing call from a first user in a communications network. The network node receives a request for the outgoing call to be set up via a first persona out of multiple personas associated with the first user, which request is obtained as a voice instruction from the first user via a Digital Assistant device. The voice instruction comprises a personalized name associated with the first persona of the first user. The network node identifies among the multiple personas associated with the first user, an Internet Protocol Multimedia Subsystem (IMS) user ID corresponding to the first persona based on the personalized name received in the voice instruction. The network node sends to an IMS node in the communications network, the identified IMS user ID, and a request to initiate the outgoing call via the first persona of the first user.

Methods, systems, and storage media are described for providing codec mode notification (CMN) messages for speech to be signaled from a sender to a receiver. Other embodiments may be described and/or claimed.

A client and a server negotiate a version of a protocol that supports multiplexed connections using a connectionless transport layer protocol, such as a QUIC protocol that is supported for a connection between the client and the server. The connection can support one or more streams. The client embeds a first extension in a cryptographic handshake. The first extension includes a structure that indicates a set of protocols supported by the client at a set of layers. The client and the server then concurrently negotiate a subset of the protocols and a subset of the layers that are supported by the client and the server. Data is tunneled from the subset of the protocols and the subset of the layers over the connection between the client and the server. The data is tunneled using stream frames that include the data, a first field having a value indicating a layer type, and a second field having a value indicating a protocol type.

This disclosure describes systems, methods, and devices related to extremely high throughput (EHT) trigger based (TB) preamble. A device may receive a trigger frame from an associated access point (AP), wherein the trigger frame comprises one or more resource unit (RU) bandwidths (BWs) allocated to the device. The device may generate an EHT physical layer protocol data unit (PPDU) based on receiving the trigger frame from the access point, wherein the PPDU comprises an EHT preamble that includes a signaling (U-SIG) field. The device may encode the U-SIG field with an indication of one or more resource unit (RU) bandwidth (BW) allocations to be used for sending the PPDU to the AP, wherein the indication is a value associated with a first option of one or more options of selectable RU BWs. The device may cause to send the PPDU to the AP and an uplink data transmission direction.