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 system includes an optical fiber provided in a monitor area, a detection unit that monitors the monitor area, a monitor, and a control unit that displays a monitoring situation of the monitor area on the monitor. The detection unit detects an anomaly that has occurred in the monitor area and identifies a location on the optical fiber where the anomaly is detected, based on a vibration pattern included in an optical signal received from the optical fiber. On the monitor, as a monitoring situation of the monitor area, the control unit displays an arrangement situation of the optical fiber in an overlapping manner on a map of the monitor area, displays a mark indicating a location on the optical fiber where the anomaly is detected, in an overlapping manner on the map of the monitor area, and displays information indicating a detail of the anomaly.

In some examples, an electronic device for mounting in a chassis includes a housing to be received in the chassis, and a mechanical intrusion indication segment to move from a retracted position to an extended position responsive to mounting of the housing in the electronic device. The mechanical intrusion indication segment when in the extended position is to break upon removal of the housing from the chassis. A controller is to detect an intrusion of the electronic device in response to breaking of the mechanical intrusion indication segment.

In some examples, an electronic device for mounting in a chassis includes a housing to be received in the chassis, and a mechanical intrusion indication segment to move from a retracted position to an extended position responsive to mounting of the housing in the electronic device. The mechanical intrusion indication segment when in the extended position is to break upon removal of the housing from the chassis. A controller is to detect an intrusion of the electronic device in response to breaking of the mechanical intrusion indication segment.

Systems, methods, and software for monitoring and controlling a security system for a structure are provided herein. An exemplary method may include receiving sensor data from at least one first peripheral, the sensor data associated with at least one of activity inside and activity outside of a structure; determining a critical event based in part on the sensor data; creating an alert based in part on the critical event; getting user preferences associated with at least one of a user and a base unit; determining a response based in part on the alert and user preferences; and activating at least one of a second peripheral and a service based in part on the response.

Systems, methods, and software for monitoring and controlling a security system for a structure are provided herein. An exemplary method may include receiving sensor data from at least one first peripheral, the sensor data associated with at least one of activity inside and activity outside of a structure; determining a critical event based in part on the sensor data; creating an alert based in part on the critical event; getting user preferences associated with at least one of a user and a base unit; determining a response based in part on the alert and user preferences; and activating at least one of a second peripheral and a service based in part on the response.

An electronic barrier alarm sensor having a flexible sensing device. The sensor may be mounted to a door, door frame, window, window frame, object or wall to detect when a door or window has been opened, that an object has been moved or to detect the presence of an animal. The flexible sensing device comprises one or more attributes that change as the flexible sensing device is bent, or unbent, by operation of a door, window, removal of an object, or the presence of an animal. Based on the changes, the electronic barrier alarm sensor may transmit an alarm signal when one or more measured values of the one or more attributes changes by more than one or more predetermined amounts.

The invention relates to a device for monitoring a motor vehicle, in particular a motorcycle (2), configured to be connected to an interface (3) of the motor vehicle (2), the device comprising:—a processor (1a) associated with a memory (1b),—a geolocation module (1c),—a vibration detection module (1d) and/or a fall detection module (1f),—a mobile application module (1g) for exchanging information on the vehicle with a mobile application server (4),—a silent alert module (1i) via the mobile application server (4) according to vibration detection module data (1d) or fall detection module data (1f), characterized by:—a mobile internet network connection module (1i),—an audible alarm (5), and in that the mobile application module (1g) is configured to remotely control the audible alarm (5).

A remote monitoring system is provided including a sensor, for sensing data associated with a remotely monitored object; a transmitter coupled to the sensor, and for transmitting data of the sensor via satellite; and a notification system coupled to the transmitter, for receiving the sensor data and providing notifications to a user based upon the received sensor data.