Systems and methods for integration of speech processing functionality with organization systems are disclosed. For example, a voice interface application may be created to enable a voice interface functionality for devices associated with an organization. Space identifiers of spaces of the organization may be created and associated with the voice interface application. Devices associated with the space identifiers may be enabled for utilizing the voice interface application and may be set up utilizing wireless network identifiers associated with the spaces and/or the organization.

A method, system and non-transitory computer-readable medium for the unambiguous identification of non-associated Wi-Fi devices, where upon receiving (102), by an access point (200), a probe request (202) from a Wi-Fi device (201) not associated to the access point (200), sending (104) a probe response (204) addressed to the non-associated Wi-Fi device (201), wherein the probe response (204) comprises a Hotspot 2.0 Indication element (206) including a ANQP Domain ID field (207) with a determined value; receiving (106), by the access point (200), an action frame (208) sent by the non-associated Wi-Fi device (201) in response to the Hotspot 2.0 Indication element (206) of the probe response (204); obtaining a static MAC address (209) of the non-associated Wi-Fi device (201) from the source address of the received action frame (208); and identifying (110) the non-associated Wi-Fi device (201) based on the obtained static MAC address (209).

Techniques are provided for ad-hoc authenticated group discovery and data sharing in a mesh network. A group of devices is created without leaving a security gap due to the open communication needed to establish the discovery of the devices forming the group. The group can be authenticated autonomously following network discovery of the devices. Instead of requiring global pre-assigned keys for authentication, the devices in the group are authenticated with signatures and certificate passing thereby providing strong security. The efficiency of data sharing between the devices of the network, such as a mesh network, can also be increased. One or more devices may act as a bridge device between devices of a same group that are not in direct wireless communication with each other to reduce re-broadcasts within the mesh network.

An IoT device may maintain a list of cells that fail to support features of the IoT device and may scan a designated frequency band to identify strongest cells in the designated frequency band. The IoT device may decode one or more signals from one or more of the identified strongest cells that are not included in the list and may determine, based on the decoded one or more signals, a first subset of the one or more of the identified strongest cells that support features of the IoT device and a second subset of the one or more of the identified strongest cells that fail to support features of the IoT device. The IoT device may select a particular cell of the first subset of the one or more of the identified strongest cells that support features of the IoT device and may attach to the particular cell.

An electronic device that performs a scan is described. During operation, the electronic device may perform, using a scanning radio, the scan of a band of frequencies, where the scanning radio only receives frames. Then, the electronic device may receive, using the scanning radio, a beacon associated with a second electronic device, where the beacon includes information associated with operation of a third electronic device in a second band of frequencies. Next, the electronic device may perform, using a data radio, a second scan of the second band of frequencies based at least in part on the information, where the data radio transmits and/or receives second frames, and where the second scan is performed, at least in part, while the scan is performed. Note that the electronic device may not be associated with (or may not have a connection with) the second electronic device and/or the third electronic device.

The present disclosure relates to a 5th generation (5G) or pre-5G communication system for supporting a higher data rate in comparison to the 4G communication system, such as long term evolution (LTE). A method for a terminal to establish synchronization with another terminal in a network supporting device-to-device (D2D) communication is provided. The method includes scanning, at the terminal, for synchronization signals from at least one base station, acquiring, when a synchronization signal is received from a base station, synchronization with the base station based on the synchronization signal, measuring power of the synchronization signal received from the base station, and transmitting, when data to be transmitted are generated in idle mode and the received signal power is less than a received signal power, a synchronization signal as a synchronization relaying terminal.

Tracking devices can be associated with safe zones, smart zones, and high risk zones. Safe zones correspond to regions where a likelihood that a tracking device is lost within the safe zone is lower than outside the safe zone. High risk zones correspond to regions where a likelihood that a tracking device is lost within the high risk zone is higher than outside the high risk zone. Smart zones correspond to an expected tracking device, mobile device, or user behavior. Home areas are geographic regions in which a user resides, and travel areas are geographic regions in which a user does not reside. A tracking device can be configured to operate in a mode selected based on a presence of the tracking device within a safe zone, a smart zone, a high risk zone, a home area, or a travel area.

In a case where an A-BFT period is not present in a BI, a PCP/AP uses a format that includes an Unsolicited RSS Enabled sub-field for indicating support for responding to unsolicited RSSs within a CBAP, for a Beacon Interval Control field of a DMG beacon frame used for executing a BTI-ISS. For example, in a case where it is indicated that responding to unsolicited RSSs within a CBAP is supported, the PCP/AP sets the value of the Unsolicited RSS Enabled sub-field to 1. In a case where the value of the Unsolicited RSS Enabled sub-field included in a received DMG beacon frame is 1, a STA responds with an unsolicited CBAP-RSS.

An electronic device is disclosed. The electronic device comprises a first communication unit, a second communication unit, and a processor for performing control such that the second communication unit operates in a scan state in which an undirected advertising packet can be received when a preset IR signal is received from a remote control device through the first communication unit, acquiring identification information of a target device from the undirected advertising packet when the undirected advertising packet is received from the remote control device in the scan state, and providing a user interface (UI) for guiding a Bluetooth connection with remote control device when the acquired identification information of a target device matches identification information of the electronic device.

Methods, systems, and devices for wireless communications are described in which synchronization of one or more direct communications links between a user equipment (UE) and one or more other UEs is provided by one or more sidelink synchronization signals. The sidelink synchronization signals may include a first sidelink synchronization signal that provides a relatively coarse synchronization (e.g., providing rough timing information about the start of the orthogonal frequency division multiplexing (OFDM) symbol, without providing any information identifying the source of the signal) that may be used to identify a search space for a second sidelink synchronization signal that provides relatively fine synchronization (e.g., identifying more precisely the OFDM symbol boundaries) and an identifier of the device that is transmitting the sidelink synchronization signals.