A first communication, received from a first communication device operated by a first user, is parsed according to a policy to determine associated metadata comprising a first set of attributes. The policy dictates rules for use of the metadata. The first set of attributes is compared to attributes of a plurality of communication devices. Based on the comparing, at least one recipient communication device for the first communication is identified from the plurality of communication devices, wherein at least one of the first set of attributes matches at least one of the attributes of the plurality of communication devices. Based on the policy and the metadata, at least one of a feature available to the at least one identified recipient communication device and behavior of the at least one identified recipient communication device as perceived by a particular user associated with the at least one recipient communication device is determined.

Embodiments may relate to pruning a distributed database for a peer-to-peer (P2P) network. A node may transmit a first multicast beacon over the P2P network. The node may receive a unicast synchronization request in response to the first multicast beacon, the unicast synchronization request comprising a removed list for the distributed database. The node may compare the removed list to a locally stored node list to determine a node removal. The node may determine if there is a failure in a node information call made to a node relating to the node removal. The node may, subsequent to a determination of the failure, update the locally stored node list based on the node removal. The node may transmit a second multicast beacon comprising the node removal. Nodes receiving the second multicast beacon may update a locally stored removed list using the node removal.

A system and method of relaying distress calls in a mesh network of nodes. The method includes discovering, by a target node of the mesh network, a plurality of neighboring nodes of the target node that each have one or more types of communication capabilities with the target node. The method includes detecting, by the target node, a failure event associated with a resource of the target node. The method includes broadcasting, by the target node, a distress call indicative of the failure event to one or more neighboring nodes of the plurality of neighboring nodes of the target node to cause the one or more neighboring nodes to redirect the distress call to an egress node of the mesh network.

Techniques are provided for adaptive sensor position determination for multiple mobile sensors. One method comprises obtaining a spatio-temporal representation of sensor measurements, from multiple mobile sensors, wherein the spatio-temporal representation comprises multiple layers each corresponding to a different point in time, wherein a given layer comprises multiple positions, and wherein each position in the given layer corresponds to a possible location for at least one of the multiple mobile sensors in an environment; applying the spatio-temporal representation to an environment state prediction model that generates a prediction of at least one future sensor measurement value for multiple positions in the spatio-temporal representation; applying the predictions of the at least one future sensor measurement value to a sensor position determination model that determines a new position for each of one or more of the multiple mobile sensors; and initiating a movement of the one or more of the multiple mobile sensors to the new position.

A wireless sensor network at a monitored location can be configured to generate sensor channel(s) of data to assess operational conditions at the monitored location. Inputs based on the sensor channel(s) of data are provided to a host system for analysis of a demand to one or more resources at the monitored location. Response messages can be generated based on the demand analysis and transmitted to actuator(s) at the monitored location to effect an adjustment to the operational conditions.

A wireless sensor network at a monitored location can be configured to generate sensor channel(s) of data to assess operational conditions at the monitored location. Inputs based on the sensor channel(s) of data are provided to a host system for analysis of a demand to one or more resources at the monitored location. Response messages can be generated based on the demand analysis and transmitted to actuator(s) at the monitored location to effect an adjustment to the operational conditions.

An apparatus configured to operate in a wireless communication network by generating and transmitting a first wireless signal using a resource element allocated to the apparatus is configured to receive a second wireless signal and to determine that the second wireless signal is to be forwarded within the wireless communication network. The apparatus is configured to transmit a third wireless signal based on the second wireless signal instead of the first wireless signal using the allocated resource element of the wireless communication network.

An apparatus configured to operate in a wireless communication network by generating and transmitting a first wireless signal using a resource element allocated to the apparatus is configured to receive a second wireless signal and to determine that the second wireless signal is to be forwarded within the wireless communication network. The apparatus is configured to transmit a third wireless signal based on the second wireless signal instead of the first wireless signal using the allocated resource element of the wireless communication network.

Information reported by one or more gateway nodes in a Bluetooth mesh network regarding an unprovisioned Bluetooth device is received. Provisioning data for the unprovisioned Bluetooth device is generated. A destination Bluetooth gateway node to which to issue the generated provisioning data is determined from among the one or more gateway nodes reporting the received information. The generated provisioning data is issued to the destination Bluetooth gateway node so that the destination Bluetooth gateway node can perform a provisioning operation directed at the unprovisioned Bluetooth device.

Information reported by one or more gateway nodes in a Bluetooth mesh network regarding an unprovisioned Bluetooth device is received. Provisioning data for the unprovisioned Bluetooth device is generated. A destination Bluetooth gateway node to which to issue the generated provisioning data is determined from among the one or more gateway nodes reporting the received information. The generated provisioning data is issued to the destination Bluetooth gateway node so that the destination Bluetooth gateway node can perform a provisioning operation directed at the unprovisioned Bluetooth device.