A package command node detects an environmental anomaly related to a shipment package for transport within a shipping container on a transit vehicle having an external transceiver. The package command node has a command node housing disposed with the package, a processor within the housing, a memory maintaining package command node environmental detection program code, and a wireless transceiver communication interface that communicates with sensor-based ID nodes generating sensor data from different parts of the container. The package command node's processor is programmatically configured to detect the ID node sensor data; identify the anomaly when the detected sensor data indicates an environmental condition that exceeds an environmental threshold; generate an alert notification related to the anomaly; and transmit the alert notification to the external transceiver to initiate a mediation response related to the environmental anomaly

A system for detecting and verifying an environmental anomaly within a shipping container (transported on a transit vehicle having an external transceiver) has wireless sensor-based ID nodes at different locations within the container and multiple command nodes mounted to the container. A first command node is programmatically configured to be operative to detect the sensor data broadcasted from the ID nodes; responsively identify the anomaly based upon the sensor data detected by that command node; and transmit a validation request to another command node. The other command node is configured to be operative to also detect the sensor data broadcasted from the ID nodes; receive the validation request from the first command node; verify the anomaly in response to the validation request and based upon the sensor data detected by the second command node; and broadcast a verification message based upon whether the anomaly for the shipping container is verified.

Systems for layered initiation of a mediation response to a battery-related environmental anomaly may have a node-enabled battery, a secondary sensor-based node disposed next to the node-enabled battery, and a command node. The command node is programmatically configured to be operative to conduct an initial level of anomaly monitoring by monitoring signals from the node-enabled battery over time for unanticipated ceased broadcasting per a profile and monitoring environmental sensor data from the secondary node; identify an initial level of the environmental anomaly when both the unanticipated state of ceased broadcasting is detected and the monitored broadcasted environmental sensor data reflects at least a first threshold difference change in the environmental sensor data; conduct a secondary level of anomaly monitoring of sensor data broadcasts from the secondary node; and broadcasting a layered alert notification to initiate a mediation response to the anomaly based upon the secondary level of anomaly monitoring.

Systems/methods are described for initiating a mediation response to a detected environmental anomaly in a shipping container. Multiple wireless sensor-based ID nodes in the container generate sensor data on environmental conditions proximate each ID node. A command node mounted to the container has a command node sensor generating sensor data on an environmental condition proximate the command node. The command node detects ID node sensor data and detects the anomaly when ID node sensor data exceeds an ID node's threshold condition. The command node then generates a layered alert notification identifying a targeted mediation recipient and targeted mediation action, and establishing a mediation response priority based upon comparing the ID node sensor data and the threshold, and a difference between the command node sensor data and a container environmental profile maintained by the command node). The command node initiates a mediation response by transmitting the notification to an external transceiver.

A command node designates a group of monitor beacons from wireless ID nodes in different locations in a shipping container where the group further includes a remote monitor beacon located outside a reception range of the command node. The command node programmatically configures another ID node to be a dedicated bridging node providing a dedicated intermediary communication link between the command node and the remote monitor beacon. The command node receives a respective broadcast signal from the monitor beacons (directly or indirectly through the bridging node), monitors those signals for any unanticipated ceased broadcasting, identifies an unresponsive subset of monitor beacons from such monitoring, and detecting an environmental anomaly when the size of the unresponsive subset exceed a threshold setting. The command node then generates an alert notification related to the anomaly and initiates a mediation response for the anomaly by transmitting the alert notification to an external transceiver.

Systems and methods are described for securely monitoring a shipping container for an environmental anomaly using elements of a wireless node network of sensor-based ID nodes disposed within the container and a command node associated with the container. The method has the command node identifying which of the ID nodes are confirmed as trusted sensors based upon a security credential specific to each of the ID nodes; monitoring only the confirmed ID nodes for sensor data broadcast those ID nodes; detecting the anomaly based upon the sensor data from at least one of the confirmed ID nodes; automatically generating an alert notification related to the detected environmental anomaly for the shipping container; and transmitting the alert notification to the external transceiver to initiate a mediation response related to the detected environmental anomaly.

A packaging paperboard is provided that includes two or more layers with an antenna pattern printed on one layer of the two or more layers, and an RFIC element adhered to the other layer of the two or more layers. In a laminate having the layers stuck together, the RFIC element and the antenna pattern are interposed between the layers to configure an RFIC device in which the RFIC element and the antenna pattern are electrically connected.

Provided is a container for storing, preserving, identifying, tracking and transporting a federally controlled substance having a child resistant and senior friendly lid, and a process for identifying and tracking federally controlled substances within the re-sealable containers. The federally controlled substance containers include a two-piece child resistant and senior friendly lid and a 2-factor authentication identification tag, as well as a microchip for identifying the container controlled substance contents and tracking the container. Controlled substance contents within the containers are optimized for long term storage by removal of the oxygen therein, and the containers and controlled substance contents can be readily identified, detected, tracked and traced after being filled with a federally controlled substance.

An enteral feeding apparatus includes a pod having an expansile pouch which defines a reservoir for enteral fluid and a gas impermeable barrier surrounding the pouch. The pod has an inlet port for delivery of enteral fluid into the pouch and an outlet port having a seal which is pierceable to release enteral fluid from the pouch for delivery to a PEG via a feeding line. The expansile pouch provides the sole force by which enteral fluid is delivered from the pouch through a regulator. The system can accommodate a range of enteral fluids with a wide range of viscosities.

A metal cap is provided with an RFID tag that includes a metal cap including a cylindrical main body part, a top plate part formed at one end of the cylindrical main body part, and an opening part formed at the other end of the cylindrical main body part, and an RFID tag disposed on the metal cap. The RFID tag includes an RFIC element disposed in the metal cap, and a loop antenna connected to the RFIC element. At least a portion of a loop opening of the loop antenna extends in a circumferential direction R of the metal cap while being exposed from an opening edge of the opening part of the metal cap to the outside of the metal cap.