Aspects describe methods to improve primary earbud handover decisions. Audio drop outs may be reduced by incorporating audio latency variability metrics in handover decision making algorithms. In aspects, predictive audio latency variability metrics, in combination with signal quality measurements, are used to determine when to handover primary earbud responsibilities between earbuds of an earbud system.

Systems and methods for switching communication pathways between a mobile device and connected Internet of Things (IOT) device are described to improve scalability and communication between devices. An application on the mobile device may determine whether local or virtual local endpoints are available to route communications without using a remote IoT server endpoint. Communications and updates from multiple co-located, but not necessarily user-related connected devices may be aggregated, and sent to a remote IoT server to reduce the peak load scalability requirement of the server.

Systems and methods for switching communication pathways between a mobile device and connected Internet of Things (IOT) device are described to improve scalability and communication between devices. An application on the mobile device may determine whether local or virtual local endpoints are available to route communications without using a remote IoT server endpoint. Communications and updates from multiple co-located, but not necessarily user-related connected devices may be aggregated, and sent to a remote IoT server to reduce the peak load scalability requirement of the server.

As the variety and number of wireless client devices have increased, often there may be multiple client devices in close proximity of each other. In addition to the connectivity to the wireless wide area network (WWAN), the client devices may have a short range link to directly connect with each other. Two or more client devices in a given area may be camped on the same or neighboring cells of the same WWAN, and the client devices may be performing measurements on the same set or subset of cells. A method and apparatus are disclosed such that a client device may perform serving and neighbor cells measurements and relay the measurements information to other client devices over the short range link. This may enable other client devices to avoid having to perform measurements directly on the WWAN cells which may reduce their power consumption.

Communication network architectures, systems and methods for supporting a network of mobile nodes. As a non-limiting example, various aspects of this disclosure provide communication network architectures, systems, and methods for supporting a dynamically configurable communication network comprising a complex array of both static and moving communication nodes (e.g., the Internet of moving things). Specifically, there is disclosed optimizing methods for handing off or connecting a mobile user to different access points.

A communications system and method of operation thereof. The communications system includes a communication network, a plurality of subscriber units and accessories, and a communications server. Each of the plurality of accessories are associated with and linked to one of the of subscriber units by a wireless connection. The communications server communicates with the plurality of subscriber units via the communication network, and is configured to obtain and maintain a plurality of data on each of the plurality of subscriber units, and generate a backup list identifying secondary subscriber units to which each of the plurality of accessories can link. Upon detecting a condition where communication drops below a desired level of service, the communication server is configured to identify a secondary subscriber unit from the first accessory's backup list and instruct the secondary subscriber unit to link with the first accessory.

A system and method of managing short-range wireless communication connections at a vehicle, the method including: receiving a wireless signal from a personal mobile device at the vehicle, wherein the wireless signal is received using a first short-range wireless communication (SRWC) technology; determining whether to perform a connection handover based on the received wireless signal; when it is determined that the connection handover is to be performed, then carrying out the connection handover that includes establishing an alternative carrier connection between a wireless communications device and the personal mobile device using a second SRWC technology, wherein the wireless communications device is installed in the vehicle; and when it is determined that the connection handover is not to be performed, then setting the wireless communications device to operate in a discovery mode, wherein the discovery mode includes sending an inquiry message indicating availability of a connection to the wireless communications device.

Methods and devices related to a cellular signal mesh network are described. In an example, a method can include determining, via a processing resource of a first computing device, whether a cellular signal of the first computing device is below a threshold cellular signal, transmitting from the first computing device to a second computing device first signaling including data representing a request for operational data of the second computing device in response to determining that the cellular signal of the first computing device is below the threshold cellular signal, receiving from the second computing device second signaling comprising the operational data of the second computing device, and transmitting from the first computing device to the second computing device third signaling including data representing at least one of: a voice call, a video call, or a message in response to receiving the second signaling comprising the operational data.

Method and apparatus are disclosed for tracking a wireless device using a seamless handoff between a vehicle and a mobile device. An example vehicle includes internal and external antennas, a sensor, and an infotainment head unit with a display. The infotainment head unit tracks, using the external antenna, a wireless-enabled object exterior to the vehicle. The infotainment head unit also determines a location of the mobile device associated with the vehicle based on the sensor and the internal and external antennas. Additionally, when the mobile device exits the vehicle, the infotainment head unit automatically transitions tracking information to the mobile device.

A method and apparatus for performing a handover procedure in a wireless communication system is provided. A source eNodeB (eNB) of the handover procedure transmits a handover request message including a user equipment (UE) context of a master UE and a UE context of a companion UE from a source eNB. A target eNB identifies relationship between the master UE and the companion UE according to the handover request message including the UE contexts of the master UE and the companion UE.