An apparatus, system, or method may wirelessly send an audio component of a multimedia channel to one or more wireless computing devices while a visual component of the multimedia channel is playing on a video monitor. The extracted audio component of the multimedia content may be packetized into data packets and broadcast via a network such that the data packets can be received by the wireless computing devices and the audio component can be played by the wireless computing devices in synchronization with the visual component playing on the video monitor. A channel listing may inform the wireless computing devices what channels are available. A visual content that is not the visual component of the multimedia channel may be displayed on the wireless computing device while an audio component of the multimedia channel is streamed to the wireless computing device. A direction indicator may be displayed on the wireless computing device to indicate the direction of a video monitor playing the visual component. A user of the wireless computing device may request that the visual component playing on a video monitor be set to a user-selected component.

A wireless communication device including a first media access control device and a first transceiver. The first media access control device is configured to selectively generate a first timestamp having a first length and a second timestamp having a second length. The first timestamp indicates a first synchronization time of the wireless communication device, the second timestamp indicates only a first portion of the first synchronization time, and the first synchronization time is used by a client station to synchronize timing between the wireless communication device and the client station. The first media access control device is further configured to generate a beacon including either the first timestamp or the second timestamp, and an indication of whether the beacon includes the first timestamp or the second timestamp. The first transceiver is configured to transmit the beacon from the wireless communication device to the client station.

An apparatus, system, or method wirelessly sends an audio component of a multimedia channel to one or more wireless computing devices while a visual component of the multimedia channel is playing on a video monitor. The audio component may be packetized into data packets and broadcast via a network such that the data packets can be received and played by the wireless computing devices in synchronization with the visual component playing on the video monitor. A channel listing may inform the wireless computing devices what channels are available. A user of the wireless computing device may request that the visual component playing on a video monitor be set to a user-selected component.

A first communication device determines whether a specific wireless local area network (WLAN) communication link, among a plurality of WLAN communication links corresponding to respective frequency segments, has been negotiated with a second communication device for a first traffic stream. In response to determining that the specific WLAN communication link has been negotiated for the first traffic stream, the first communication device transmits packets in the first traffic stream only via the specific WLAN communication link. In response to determining that no WLAN communication link has been negotiated with the second communication device for the first traffic stream, the first communication device transmits packets in the first traffic stream via multiple WLAN communication links corresponding to different frequency segments.

Network hardware devices organized in a wireless mesh network (WMN) in which one network hardware devices includes multiple radios. A processing device of a first network hardware device scans a channel of the first radio for access point (AP) beacon frames that each contains information identifying a mesh network device in a WMN. The processing device creates a list of a plurality of mesh network device from the AP beacon frames and transmits a location probe transmission by each of the plurality of radios one sector at a time in a neighbor discovery process. The processing device receives metrics of the location probe transmissions received by the plurality of mesh network devices in the neighbor discovery process and configures each of the plurality of radios to communicate with one of a set of neighbor mesh network devices using the metrics in a neighbor selection process.

A load control system may include control devices configured to communicate via a network. The network may include router devices (e.g., a leader device and other router devices) for enabling communication of messages throughout the network. Boundary router devices may be assigned to assist with communications around a noise source. The boundary router devices may be identified as being outside of a first range from the noise source and within a second range from the noise source. Control device within the first range that are closer to the noise source may be assigned as end devices. The boundary router devices that are outside of the first range may be close enough to the end devices within the first range to assist the end devices with communication around the noise source.

A device may receive, from a beacon device, a first message including a first identifier. The first identifier may be associated with the beacon device. The device may receive, from a user device, a second message including a second identifier. The second identifier may be associated with the user device. The device may determine the second identifier based on the second message and the first identifier. The device may determine an event associated with the second identifier based on the first identifier. The device may provide, to another device, information that identifies the second identifier and the event to permit the other device to identify a displacement trajectory associated with the user device.

The present disclosure relates to a pre-5th-generation (5G) or 5G communication system to be provided for supporting higher data rates beyond 4th-generation (4G) communication system such as a long term evolution (LTE). A method and apparatus for performing a relay communication are provided. A remote user equipment (UE) according to the present disclosure is configured to acquire a first parameter related to relay load from each of a plurality of relay candidate UEs, to select a relay UE which will perform a relay communication with the remote UE from among the plurality of relay candidate UEs based on the first parameter acquired from each of the plurality of relay candidate UEs, and to perform the relay communication with the selected relay UE. The first parameter is generated based on cellular communication load between a base station (BS) connected to a corresponding relay candidate UE and the corresponding relay candidate UE.

A communication system is provided for enabling secure communications between at least a sender communication device and at least a recipient communication device or point-of-presence, wherein the then current recipient communication device(s) or point(s)-of-presence for the recipient(s) can vary over time. The communication system includes a network server component configured to maintain a current set of identification information elements for communicating with communication device(s) or points-of-presence associated with the one or more recipients; and if applicable provide up to date one or more identifiers or identification information elements for the one or more recipients to a sender communication device thereby prompting the sender communication device to send the secure communication based on the updated one or more identifiers or identification information elements. A related method is provided for exchanging secure communications between senders and recipients, where the communication device(s) or point(s)-of-presence associated with the recipients can vary over time.

A method for controlling signal transmission includes detecting whether there is a requesting terminal that requests to establish a wireless connection and turning off a sending function of sending beacon frames if there is no requesting terminal.