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.

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.

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.

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 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 blanket apparatus is described for enhanced detecting of an environmental anomaly relative to a shipping container temporarily maintaining packages. Generally, the apparatus includes a detection blanket disposed proximate the packages and multiple sensor-based ID nodes integrated as part of the detection blanket in a geographically disperse configuration relative to the detection blanket. Each of the sensor-based ID nodes has a processor, memory (with ID node monitoring program code), an environmental sensor, and a wireless radio transceiver. The sensor generates sensor data related to an environmental condition adjacent the sensor and indicative of the environmental anomaly when the sensor data generated is above a threshold condition for that sensor. The transceiver is configured to access and broadcast the sensor data generated in response to a report command from the ID node's processor when the ID node processor executes the ID node monitoring program code.

A blanket apparatus is described for enhanced detecting of an environmental anomaly relative to a shipping container temporarily maintaining packages. Generally, the apparatus includes a detection blanket disposed proximate the packages and multiple sensor-based ID nodes integrated as part of the detection blanket in a geographically disperse configuration relative to the detection blanket. Each of the sensor-based ID nodes has a processor, memory (with ID node monitoring program code), an environmental sensor, and a wireless radio transceiver. The sensor generates sensor data related to an environmental condition adjacent the sensor and indicative of the environmental anomaly when the sensor data generated is above a threshold condition for that sensor. The transceiver is configured to access and broadcast the sensor data generated in response to a report command from the ID node's processor when the ID node processor executes the ID node monitoring program code.

An adaptive method and system for monitoring a shipping container for an environmental anomaly uses sensor-based ID nodes within the container and a command node. Sensors on each ID node generate sensor data about an environmental condition proximate the ID node as disposed within the container. Each ID node periodically broadcasts the sensor data. The command node monitors a first group of sensor data from the ID nodes over a first time period to detect an initial environmental threshold condition related to the container, then monitors a subsequent group of sensor data over a second time period under a modified monitoring parameter to detect a secondary environmental threshold condition related to the container as the anomaly. In response to detecting the secondary condition, the command node generates an alert notification and transmits the alert notification to an external transceiver to initiate a mediation response related to the anomaly.

An adaptive method and system for monitoring a shipping container for an environmental anomaly uses sensor-based ID nodes within the container and a command node. Sensors on each ID node generate sensor data about an environmental condition proximate the ID node as disposed within the container. Each ID node periodically broadcasts the sensor data. The command node monitors a first group of sensor data from the ID nodes over a first time period to detect an initial environmental threshold condition related to the container, then monitors a subsequent group of sensor data over a second time period under a modified monitoring parameter to detect a secondary environmental threshold condition related to the container as the anomaly. In response to detecting the secondary condition, the command node generates an alert notification and transmits the alert notification to an external transceiver to initiate a mediation response related to the anomaly.

The built-in system for testing the sprinkler system of a lifeboat is characterized in that it has a water tank (17) connected to a pipeline for the water from the water installation of the marine facility (14) which pipeline is equipped with a sprinkler system pump (2). The pipeline for the water from the water installation of the marine facility (14) has a valve for the water from the water installation of the marine facility (15) and is connected to an outboard water inlet pipe of the sprinkler system (4), which pipe has an outboard water valve (5). At a connection point (16), the pipeline for the water from the water installation of the marine facility (14) is connected to the outboard water inlet pipe of the sprinkler system (4). The connection point (16) that connects the pipeline for the water from the water installation of the marine facility (14) to the outboard water inlet pipe of the sprinkler system (4) is located between the outboard water valve (5) of the outboard water inlet pipe of the sprinkler system (4) and the sprinkler system pump (2).