One embodiment of the present invention sets forth a technique for evaluating connections between nodes in a mesh network. The technique includes identifying a plurality of potential parent nodes for a first node included in the mesh network; computing, for each potential parent node, one or more accumulated message success rates associated with transmitting messages from the first node to a target destination within the mesh network via the potential parent node and with receiving messages from the target destination via the potential parent node; and selecting, from the plurality of potential parent nodes and based on the accumulated message success rates, a parent node for the first node.

To prevent a client device from being stranded, a steering controller of an access point device can provide an improved network environment or performance by steering a target client device to a basic service set (BSS) of a network device that is different from the current BSS of the target client device based on a first or a poor link quality threshold where non-associated client (NAC) link quality parameters for NAC network devices within the network environment, such as a mesh network, is not available. The steering controller can select or identify a candidate BSS and then send a steering query to the target client device. The steering controller can receive a response from the target client device that indicates whether the steering to the candidate BSS was successful or accepted by the targeted client device.

Electronic devices are disclosed herein. Each device includes a display, communication circuitry and a processor. For each device, the respective processor executes registering a geographic locale indicator for the electronic device via a universally unique identified (UUID), equipment identity register (EIR) or manufacturer information. For a first device, a setup mode is executed, including transmitting the UUID, EIR, or manufacturer information to a second device, which may then determine is communication is possible with the first device based on the geographic locale indicator. The first device may receive a response indicative of whether the locales between the devices match. Based on the same, the first and/or second device may also display an indication as to whether communication is possible with the second device.

Systems, methods, apparatuses, and devices, for the wireless communication of analyte data are provided. In some embodiments, a method and calibration station for calibrating a continuous analyte sensor system is provided. Methods and testing systems for testing a continuous analyte sensor system is provided. Continuous analyte sensor systems, display devices and peripheral devices configured for wireless communication of analyte, connection, alarm and/or alert data and associated methods are provided.

According to various example embodiments of the present invention, an electronic device may comprise: a sensor module; a first communication circuit supporting a first communication scheme; a low-power processor; and a processor operatively connected to the sensor module, the first communication circuit, and the low-power processor, wherein the first communication circuit transmits a request signal related to a state of the electronic device to the low-power processor on the basis of distance measurement-related information provided from the processor, receives information related to the state of the electronic device from the low-power processor in response to the request signal, and measures a distance to an external electronic device on the basis of the information related to the state of the electronic device. Other embodiments may also be possible.

Techniques for determining network reliability using message success rates include a first node in a mesh network computing a transmitted message success rate associated with a connection from the first node to a second node, wherein the second node is a neighbor node to the first node; computing, based on a first accumulated transmitted message success rate and the transmitted message success rate, a second accumulated transmitted message success rate for a route from the first node to a target destination using the second node, wherein the first accumulated transmitted message success rate is received from the second node and is associated with intermediary connections between the second node and the target destination; selecting, based on the second accumulated transmitted message success rate, the second node from a plurality of neighbor nodes; and transmitting a message to the target destination via the second node.

One embodiment of the present invention sets forth a technique for evaluating connections between nodes in a mesh network. The technique includes determining, at a first node, one or more first accumulated message success rates associated with transmitting messages from the first node to a target destination within the mesh network via an established parent node and with receiving messages from the target destination via the established parent node; determining, based on the one or more first accumulated message success rates, that a search for a different parent node should be performed; identifying a plurality of potential parent nodes; computing, for each potential parent node, one or more second accumulated message success rates associated with transmitting messages from the first node to a target destination within the mesh network via the potential parent node and with receiving messages from the target destination via the potential parent node; and based on the second accumulated message success rates, selecting a new parent node from the plurality of potential parent nodes or maintaining the established parent node

One embodiment of the present invention sets forth a technique for evaluating connections between nodes in a mesh network. The technique includes listening, at a first node and across a plurality of listening windows, for one or more messages transmitted by a second node during a first period of time; determining a number of messages received by the first node during the first period of time; computing, based on the number of messages received by the first node, a received message success rate associated with a first connection between the first node and the second node, wherein the received message success rate indicates a probability of successfully receiving, at the first node, messages transmitted by the second node via the first connection; and computing, based on at least one message received during the first period of time, a transmitted message success rate associated with the first connection, wherein the transmitted message success rate indicates a probability of successfully transmitting messages from the first node to the second node via the first connection.

A method to provision a node network including provisioning a first generation of nodes by a root node; and provisioning a second generation of nodes by the first generation of nodes. Wherein at least one node from the first generation of nodes or the second generation of nodes is provisioned simultaneously with at least one other node from the first generation of nodes or the second generation of nodes.

Presented herein is a transportable, distributed, edge-based, cloud-centered broadband command, control and communications infrastructure with built-in resilience that can be employed in data collection and integration, intelligence processing, mission planning, cognitive decision support and operational command, control and communications system. Specifically, a Modular Mission Systems (MIMS), composed of Modular Load Units (MLU), and tactical communications gateways integrated onto air platforms of opportunity in podded configurations (PODS) that can bring cloud-based, broadband communications and processing architectures to the tactical edge.