A status monitoring system and the devices used for the status monitoring system is disclosed. The status monitoring system includes a controller device, a plurality of rod monitoring devices, and a motor monitoring device which works together to provide a layered approach to securing the boat. The controller device is configured to communicate with a smart device via cellular network. The controller device triggers an alert once it detects unexpected events on the boat or receives intrusion notifications from other devices in the status monitoring system. Unexpected events can include the boat moving out of the geofence, boat vibration, and unexpected starting of the vehicle. A method for monitoring the status of the boat is also disclosed. The method can include receiving an activation signal, receiving a GPS signal, receiving vibration signals, energizing the siren and transmitting notification and boat location to the cloud when detecting at least one trigger.

An optical fiber sensing system according to the present disclosure includes: a cable (20) including optical fibers; a reception unit (31) configured to receive an optical signal from at least one optical fiber included in the cable (20) and acquire a first parameter and a second parameter having a pattern in accordance with a state of a target to be monitored based on the optical signal; and a state detection unit (32) configured to detect a predetermined event based on the pattern that the first parameter has and then detect the state of the target to be monitored based on the pattern that the second parameter has.

A communication terminal includes an acceleration sensor, a position acquisition antenna, a communication interface, and a processor. The processor transmits acceleration information acquired using the acceleration sensor and present position information acquired using the position acquisition antenna in a normal operation mode via the communication interface. The processor changes to an abnormal state when detecting a vibration equal to or higher than a first predetermined value using the acceleration sensor, and increases a frequency of acquisition or transmission of the acceleration information or the present position information in the abnormal state.

A computer-implemented method includes receiving, by a base station of a first security system, an identification of a portable security system. The method further includes adding, by the base station, the portable security system as a sensor to a plurality of sensors monitored by the first security system. The method further includes configuring, by the base station, the portable security system in protect-mode, wherein the portable security system sounds an alarm in response to a sensor from the second system indicating a security-breach. The method further includes in response to the alarm from the portable security system, generating, by the base station, an alarm event of the first security system.

A computer-implemented method includes receiving, by a base station of a first security system, an identification of a portable security system. The method further includes adding, by the base station, the portable security system as a sensor to a plurality of sensors monitored by the first security system. The method further includes configuring, by the base station, the portable security system in protect-mode, wherein the portable security system sounds an alarm in response to a sensor from the second system indicating a security-breach. The method further includes in response to the alarm from the portable security system, generating, by the base station, an alarm event of the first security system.

A container security system includes a container chassis and a closure subsystem coupled to the container chassis. The closure subsystem includes a closure chassis that prevents movement of a material between a container volume and an exterior of the container chassis via an aperture defined by the container chassis. The closure subsystem includes a closure security sensor that generates a closure sensor signal when the closure chassis experiences a tamper event. A first type communication interface is housed in the closure chassis and a security engine provided by the closure subsystem receives a sensor signal indicating that the closure chassis has experienced the tamper event. The security engine then provides, in response to receiving the sensor signal and using the first type communication interface, a notification to a corresponding first type communication interface that the closure chassis has experienced the tamper event.

A container security system includes a container chassis and a closure subsystem coupled to the container chassis. The closure subsystem includes a closure chassis that prevents movement of a material between a container volume and an exterior of the container chassis via an aperture defined by the container chassis. The closure subsystem includes a closure security sensor that generates a closure sensor signal when the closure chassis experiences a tamper event. A first type communication interface is housed in the closure chassis and a security engine provided by the closure subsystem receives a sensor signal indicating that the closure chassis has experienced the tamper event. The security engine then provides, in response to receiving the sensor signal and using the first type communication interface, a notification to a corresponding first type communication interface that the closure chassis has experienced the tamper event.

A vehicle movement identification method and device, and a vehicle alert system. The method comprises: after a vehicle shuts off, collecting real-time state data of the vehicle by means of a sensor (74) provided for the vehicle (S202); comparing the real-time state data with the pre-stored post-shutdown stationary state data of the vehicle (S204); and determining, according to the comparison result, whether the vehicle is moved by a tow truck (S206).

Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for implementing an integrated doorbell device are disclosed. In one aspect, a method includes the actions of receiving doorbell data indicating activation of a doorbell of a property. The actions further include receiving device data from one or more devices associated with a monitoring system within the property. The actions further include determining a security status associated with the monitoring system. The actions further include based on the doorbell data indicating activation of the doorbell of the property, the device data from the one or more devices associated with the monitoring system, and the security status associated with the monitoring system, determining a response action for execution by the monitoring system. The actions further include performing, by the monitoring system, the response action.

Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for implementing an integrated doorbell device are disclosed. In one aspect, a method includes the actions of receiving doorbell data indicating activation of a doorbell of a property. The actions further include receiving device data from one or more devices associated with a monitoring system within the property. The actions further include determining a security status associated with the monitoring system. The actions further include based on the doorbell data indicating activation of the doorbell of the property, the device data from the one or more devices associated with the monitoring system, and the security status associated with the monitoring system, determining a response action for execution by the monitoring system. The actions further include performing, by the monitoring system, the response action.