A node-enabled battery system having integrated environmental detection and reporting. The system may have a battery and sensor-based node attached to the battery. The system's sensor-based node has a processor, memory (maintaining a battery monitoring program code and a battery threshold metric value), a wireless communication interface and a sensor operative to sense a battery status condition for the battery. When executing the battery monitoring program code, the processor is programmatically configured and adapted to be operative to receive status data from the sensor reflecting the battery status condition as sensed by the sensor, automatically trigger generation of a layered alert notification related to the battery when the received status data is inconsistent with the battery threshold metric value, and cause the wireless communication interface to broadcast the layered alert notification to initiate a mediation response related to the battery status condition for the battery.

An improved system on a transit vehicle is described for coordinated mediation action in response to an identified environmental anomaly on a shipping container transported by the vehicle. The system has wirelessly broadcasting ID nodes at different locations within the container, and a fire suppression system on the vehicle having a wireless transceiver-based controller operating as a master node that can cause the suppression system to deliver fire suppressant material to the container using a delivery nozzle and pump. The controller, as master node, is configured to operate as a primary monitor for the anomaly by being operative to monitor ID node signals; identify the anomaly based on the signals; generate a layered alert notification related to the anomaly (identifying a targeted mediation action and establishes a mediation response priority); and initiate a mediation response by the suppression system related to the targeted mediation action and the mediation response priority.

In a general aspect, motion is detected using wireless signals. In an example, a method includes receiving, at a wireless communication device, requests for the wireless communication device to transmit wireless signals, the requests initiated by a wireless sensing system. The method further includes transmitting a series of wireless signals from the wireless communication device in response to the requests, and detecting, at the wireless communication device, a trigger event after transmitting the series of wireless signals. The method additionally includes updating, by the wireless communication device, a state of the wireless communication device based on the trigger event, the updated state indicating that the wireless communication device is not enabled to transmit wireless signals in response to the requests from the wireless sensing system. The method also includes communicating, by the wireless communication device, the updated state of the wireless communication device to the wireless sensing system.

Provided is a technique for restraining the amount of information as a whole while securing, as appropriate, information contributive to determination that utilizes a sensor. This sensor device 200 comprises: a measurement unit 210 for repeatedly measuring first information and second information which is measured at time intervals longer than those for the first information; and an output unit 220 for outputting the first information and second information measured by the measurement unit 210. When the first information and the second information meet respective standards thereof, the output unit 220 outputs the second information at longer intervals.

A dynamically transitioning system for monitoring a shipping container transported by a transit vehicle for an environmental anomaly has ID nodes within the container (at least some being associated with objects being transported), a command node on the container, and an external master node at a known location on the vehicle. The command node operates as a primary monitor for the anomaly by monitoring signal activity from the ID nodes; identifying the anomaly based upon the signal activity; generating a layered alert notification that identifies a targeted mediation recipient and mediation action, and establishes a mediation response priority; and transmits the notification to an external transceiver on the transit vehicle to initiate a mediation response for the mediation action. The command node dynamically instructs the external master node to temporarily operate as the primary monitor when the command node is within a threshold distance from the external master node's location.

A system for energy metering with temperature monitoring.

Systems, devices, and methods are disclosed for wireless communication of analyte data. In this regard, in embodiments, a mobile includes a transceiver configured to transmit and receive wireless signals. The mobile device includes circuitry operatively coupled to the transceiver. The mobile device also includes a non-transitory computer-readable medium operatively coupled to the circuitry and storing instructions that, when executed, cause the mobile device to perform a number of operations. One such operation is to obtain a derivative of a first signal received via a first link. Another such operation is to obtain a derivative of a second signal received via a second link; and. Yet another such operation is to generate a selection for connection to an analyte sensor system, based on a comparison of the derivative of the first signal and the derivative of the second signal.

A probe is configured for introduction into a vicinity of a hazard. The probe comprises multiple sensors, communications circuitry, processor circuitry, and a casing. The multiple sensors include at least: a sensor configured to acquire disposition information of the probe; and a sensor configured to acquire environmental information in a vicinity of the probe. The communications circuitry is configured to transmit the disposition information and the environmental information externally to the probe. The processor circuitry is configured to coordinate operation of the multiple sensors and the communications circuitry. The casing is configured to internally house the multiple sensors, the transmitter, and the processor circuitry. The casing comprises an essentially cylindrical bullet shape, and wherein along a major cylindrical axis a first end of the casing comprises a flat butt surface and a second end of the casing comprises a rounded nose surface.

Systems and methods are described for monitoring, detecting, and initiating a response to an environmental anomaly within a shipping container of packages involves sensor-based ID nodes, a command node and an external transceiver on a transit vehicle. Each ID node generates and broadcasts sensor data on environmental conditions proximate the respective ID node within the shipping container. The command node detects the sensor data from each ID node and compares it with locally maintained context data (an environmental threshold condition) for that ID node to detect the environmental anomaly when sensor data exceeds a respective threshold condition. The command node then generates a layered alert notification related to the environmental anomaly identifying a targeted mediation recipient and targeted mediation action, and establishing a mediation response priority. The command node initiates a mediation response related to the targeted mediation action by transmitting the layered alert notification transmitted to the external transceiver.

Disclosed are techniques to provide data at listening event offsets, using a buffering scheme having a common buffer. Received data, to be transmitted at the listening event offsets, is stored into the common buffer without classification to listening event offsets. Data to be transmitted at an upcoming listening event offset is identified in the common buffer prior to the listening event offset. Example techniques provide for simpler reconfigurability of listening events offsets, as well as transmitting data at each listening event offset that is responsive to a state of the system prior to the listening event offset.