An example embodiment enables wireless devices to adapt their channel maps when initiating connection to avoid interference, comprising receiving, by an apparatus, wireless device discovery messages from one or more other wireless devices in wireless networks not connected to the apparatus, one or more of the received wireless discovery messages including channel information indicating status of one or more channels; creating, by the apparatus, a channel map that is at least partly based on the status of the one more channels indicated in the received one or more wireless device discovery messages; and selecting, by the apparatus, channels for setting up wireless communication with another wireless device, the channels being selected at least partly based on the channel map created by the apparatus.

Method and apparatus for monitoring the status and location of personnel using a remote timer. In some embodiments, a method includes logging in, through a network accessible device, a geo position of a subject to initiate a monitored session associated with the subject. A countdown timer of a remote server is initiated to denote a monitored time interval, the remote server in communication with the network accessible device over a network. A notification is generated and transmitted across the network to a monitoring device responsive to a conclusion of the monitored time interval.

A first and second UE are connected via a PC5 unicast link. Both maintain a list of potential Side link relay UEs and agree on a common list of UEs that appear in both lists. When the first UE detects that the second UE has trouble receiving it's transmission, e.g. ack/nack timeout or high level of NACKs, decide to use a third UE from the common list as Side Link relay towards the second UE.

Multi-band signaling is described for reducing signaling overhead in an apparatus and method for communications within a mesh network. The communications involve using two different beacon signals on two different communication channels. Peer beacons are sent using directional millimeter-wave (mmW) communications to provide time synchronization and resource management information to maintain existing links among one or more neighboring peer stations. A separate network discovery beacon is sent over a sub-6 GHz communication channel, to provide mesh network profile information that identifies the mesh network to aid network discovery for wireless communication stations wanting to join the mesh network.

Systems and methods are described for call management. A method may comprise determining at least a portion of a network topology. A handoff parameter may be determined based on one or more of network telemetry information or reliability information associated with the network topology. A handoff may be caused, based on at least the handoff parameter, between a first network device and a second network device associated with the network topology.

In accordance with an example embodiment of the present invention, methods and apparatus, including computer program products, are provided. In one aspect there is provided a method. The method may include configuring the device to monitor the presence of the OFDMA beacons and the quality of the OFDMA beacon receptions. The device may transmit the beacon reports that detail the sensed beacons from the beaconing device during an OFDMA beacon opportunity. In another aspect there is provided a method. The method may include configuring a dedicated beacon quality measurement agreement between two or more devices. Based on the agreement defining the beacon transmission and reception periodicity, one device transmits a beacon and the other devices in the agreement monitor the beacon. Related apparatus, systems, methods, and articles are also described.

A first network node having gained access to a preset network receives a probe message broadcast by a second network node seeking access to the preset network. The probe message carries a second Internet Protocol (IP) address of the second network node. If the probe message includes a configuration mechanism identifier, the first network node unicasts a reply message of the probe message to the second network node based on the second IP address. The reply message carries a first IP address of the first network node. The first IP address is configured for establishing a network communication channel between the second network node and the first network node. The first network node sends network configuration information to the second network node through the network communication channel. The network configuration information is configured to allow the second network node to access the preset network.

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a node in a wireless multi-hop network may identify a power supply category of the node based at least in part on a manner in which the node is supplied with power, wherein the power supply category indicates whether the node is supplied with power from an alternating current power supply or a battery power supply. The node may transmit a power status report to another node in the wireless multi-hop network, wherein the power status report indicates the power supply category of the node. Numerous other aspects are provided.

The present technology enables inter-network routing by dynamically optimizing data paths for traffic destined for wired clients attached to a wireless access point in a wireless mesh network with a plurality of wireless access points. The present technology can also influence steering of wireless device connections within the wireless mesh network when high amounts of data traffic are exchanged between nearby mesh wireless access points.

A user equipment (UE) can operate to configure an application service to a network slice instance while preserving an application identity (ID) privacy. The UE receives network slice customer (NSC) Service ID from an NSC. A UE route selection policy (URSP) from a network slice provider (NSP), or network operator, includes the NSC Service ID in a traffic descriptor that associates a single network slice selection assistance information (S-NSSAI) with the NSC Service ID. The UE associates the application service to the network slice instance based on the NSC Service ID and the S-NSSAI.