A method of measuring an environmental contaminant includes the steps of dividing a target environment into a plurality of spaces, placing a monitor in each space, uploading device data from each monitor, and processing the device data to determine a level of environmental contamination within each space. Each monitor is configured to measure a level of an environmental contaminant within the space for a sample period. A radon monitor includes a radon sensor configured to detect radon decay events, an environmental sensor configured to measure an ambient condition of air surrounding the radon sensor, a processor configured to record device data including a count of a number of radon decay events and the ambient conditions, and a communication means for transmitting the device data. A system includes a plurality of monitors, a receiving device for receive device data from each monitor, and a cloud computer to process the device data.

A method of measuring an environmental contaminant includes the steps of dividing a target environment into a plurality of spaces, placing a monitor in each space, uploading device data from each monitor, and processing the device data to determine a level of environmental contamination within each space. Each monitor is configured to measure a level of an environmental contaminant within the space for a sample period. A radon monitor includes a radon sensor configured to detect radon decay events, an environmental sensor configured to measure an ambient condition of air surrounding the radon sensor, a processor configured to record device data including a count of a number of radon decay events and the ambient conditions, and a communication means for transmitting the device data. A system includes a plurality of monitors, a receiving device for receive device data from each monitor, and a cloud computer to process the device data.

A method for monitoring precipitation of magnetospheric particles includes detecting charged magnetospheric particles by a particles detector, processing the detection data to associate a respective estimate or measurement of kinetic energy with the detected magnetospheric particles, obtaining a first count value N.sub.H associated with a relatively higher estimate or measurement of kinetic energy, obtaining a second count value N.sub.L associated with a relatively lower estimate or measurement of kinetic energy, detecting a relative variation of the second count value N.sub.L with respect to the first count value N.sub.H, determining that an impulsive event of precipitation of charged magnetospheric particles (MPP event) in the magnetosphere occurred, assigning to the MPP event geomagnetic longitude and time, defining one or more groups of MPP events occurred in a time range at a same geomagnetic longitude, and identifying a group of MPP events indicative of an activity of terrestrial origin.

A method for monitoring precipitation of magnetospheric particles includes detecting charged magnetospheric particles by a particles detector, processing the detection data to associate a respective estimate or measurement of kinetic energy with the detected magnetospheric particles, obtaining a first count value N.sub.H associated with a relatively higher estimate or measurement of kinetic energy, obtaining a second count value N.sub.L associated with a relatively lower estimate or measurement of kinetic energy, detecting a relative variation of the second count value N.sub.L with respect to the first count value N.sub.H, determining that an impulsive event of precipitation of charged magnetospheric particles (MPP event) in the magnetosphere occurred, assigning to the MPP event geomagnetic longitude and time, defining one or more groups of MPP events occurred in a time range at a same geomagnetic longitude, and identifying a group of MPP events indicative of an activity of terrestrial origin.

A container includes multiple panels defining an interior volume, with a first panel including a composite material. A first beam detector element positioned within the interior volume detects a directed radiation scan beam that includes a modulated query message. Also positioned within the interior volume are a security element to detect an intrusion and an identification element communicatively coupled to the first beam detector element to store an identity of the container and to produce a query response message without breaking a seal of the container. A transmitter element is coupled to the identification element to transmit a response message to a receiver unit. The beam enters the inter volume along a path directed through the first panel, across a portion of the interior volume and onto the first beam detector element allowing for determination of a material property of contents of the interior volume.

A container includes multiple panels defining an interior volume, with a first panel including a composite material. A first beam detector element positioned within the interior volume detects a directed radiation scan beam that includes a modulated query message. Also positioned within the interior volume are a security element to detect an intrusion and an identification element communicatively coupled to the first beam detector element to store an identity of the container and to produce a query response message without breaking a seal of the container. A transmitter element is coupled to the identification element to transmit a response message to a receiver unit. The beam enters the inter volume along a path directed through the first panel, across a portion of the interior volume and onto the first beam detector element allowing for determination of a material property of contents of the interior volume.

A system for monitoring one or more environmental conditions associated with a working environment includes a wearable device configured to be worn by a worker and one or more environmental sampling sensors configured to monitor the one or more environmental conditions associated with the working environment and determine environmental sampling information based on the monitoring of the one or more environmental conditions. The system further includes a positioning sensor configured to determine positioning information for the worker, the positioning information for the worker including information regarding positioning of the worker relative to the working environment. The system includes a controller configured to receive the environmental sampling information, receive the positioning information from the positioning sensor, and determine, based on the environmental sampling information and the positioning information, if the one or more environmental conditions necessitates an alert to be presented to the worker.

A system for monitoring one or more environmental conditions associated with a working environment includes a wearable device configured to be worn by a worker and one or more environmental sampling sensors configured to monitor the one or more environmental conditions associated with the working environment and determine environmental sampling information based on the monitoring of the one or more environmental conditions. The system further includes a positioning sensor configured to determine positioning information for the worker, the positioning information for the worker including information regarding positioning of the worker relative to the working environment. The system includes a controller configured to receive the environmental sampling information, receive the positioning information from the positioning sensor, and determine, based on the environmental sampling information and the positioning information, if the one or more environmental conditions necessitates an alert to be presented to the worker.

A method of measuring an environmental contaminant includes the steps of dividing a target environment into a plurality of spaces, placing a monitor in each space, uploading device data from each monitor, and processing the device data to determine a level of environmental contamination within each space. Each monitor is configured to measure a level of an environmental contaminant within the space for a sample period. A radon monitor includes a radon sensor configured to detect radon decay events, an environmental sensor configured to measure an ambient condition of air surrounding the radon sensor, a processor configured to record device data including a count of a number of radon decay events and the ambient conditions, and a communication means for transmitting the device data. A system includes a plurality of monitors, a receiving device for receive device data from each monitor, and a cloud computer to process the device data.

A method of measuring an environmental contaminant includes the steps of dividing a target environment into a plurality of spaces, placing a monitor in each space, uploading device data from each monitor, and processing the device data to determine a level of environmental contamination within each space. Each monitor is configured to measure a level of an environmental contaminant within the space for a sample period. A radon monitor includes a radon sensor configured to detect radon decay events, an environmental sensor configured to measure an ambient condition of air surrounding the radon sensor, a processor configured to record device data including a count of a number of radon decay events and the ambient conditions, and a communication means for transmitting the device data. A system includes a plurality of monitors, a receiving device for receive device data from each monitor, and a cloud computer to process the device data.