A system for automatically disarming an intrusion detection system protecting a premises and having at least an armed state of operation and a disarmed state of operation, the system for automatically disarming the intrusion detection system including an intrusion detection system state of operation ascertainer operable for receiving an indication of activation of an armed state of operation of the intrusion detection system; and a registered mobile communicator proximity detector communicating with the intrusion detection system state of operation ascertainer and operable, responsive to receiving the indication of activation of the armed state of operation by the intrusion detection system state of operation ascertainer for ascertaining at least a subset of a multiplicity of registered mobile communicators which are located in a vicinity of the premises during an activation time of the armed state of operation and for deactivating the subset of the multiplicity of registered mobile communicators.

A system for automatically disarming an intrusion detection system protecting a premises and having at least an armed state of operation and a disarmed state of operation, the system for automatically disarming the intrusion detection system including an intrusion detection system state of operation ascertainer operable for receiving an indication of activation of an armed state of operation of the intrusion detection system; and a registered mobile communicator proximity detector communicating with the intrusion detection system state of operation ascertainer and operable, responsive to receiving the indication of activation of the armed state of operation by the intrusion detection system state of operation ascertainer for ascertaining at least a subset of a multiplicity of registered mobile communicators which are located in a vicinity of the premises during an activation time of the armed state of operation and for deactivating the subset of the multiplicity of registered mobile communicators.

A security element for an object surface separated by a vertical distance, in particular an object height, from a floor area, includes a longitudinally extending flat support body including a first and second flat side. The first flat side is designed to be placed on the object surface. A presence detector and an evaluation unit are mounted on the second flat side, and the support body is made of a flexible material. The presence detector includes a detection region spatially extending around the presence detector away from the first flat side. The detection region is formed by a near-field region, and the evaluation unit includes an electrical energy storage device. The presence detector forms a measuring unit including an electrical characteristic variable. The presence detector also includes at least two electrically conductive electrodes, the electrodes being formed substantially along the entire longitudinal extent of the support body.

A security element for an object surface separated by a vertical distance, in particular an object height, from a floor area, includes a longitudinally extending flat support body including a first and second flat side. The first flat side is designed to be placed on the object surface. A presence detector and an evaluation unit are mounted on the second flat side, and the support body is made of a flexible material. The presence detector includes a detection region spatially extending around the presence detector away from the first flat side. The detection region is formed by a near-field region, and the evaluation unit includes an electrical energy storage device. The presence detector forms a measuring unit including an electrical characteristic variable. The presence detector also includes at least two electrically conductive electrodes, the electrodes being formed substantially along the entire longitudinal extent of the support body.

The disclosed embodiments provide systems, methods, and articles of manufacture for detecting an intrusion of a product (e.g., an ATM) via an electronic tattletale. The disclosed embodiments may provide an ATM comprising a housing comprising an interior surface and a substance adhered to the interior surface, the substance comprising a piezoelectric element. The ATM may further comprise a detection circuit coupled to the substance, which may be configured to receive a first response signal generated by the substance and generate an indication of an intrusion into the housing, based on a comparison of the received first response signal to a predefined second response signal.

The disclosed embodiments provide systems, methods, and articles of manufacture for detecting an intrusion of a product (e.g., an ATM) via an electronic tattletale. The disclosed embodiments may provide an ATM comprising a housing comprising an interior surface and a substance adhered to the interior surface, the substance comprising a piezoelectric element. The ATM may further comprise a detection circuit coupled to the substance, which may be configured to receive a first response signal generated by the substance and generate an indication of an intrusion into the housing, based on a comparison of the received first response signal to a predefined second response signal.

A drone for deterring intruders within a monitored area includes a multirotor aerial vehicle with an electric drive apparatus and a power supply configured to provide electrical energy. A controller is configured to control the multirotor aerial vehicle. A first sensor is in electrical communication with the controller, the sensor configured to provide navigation information to the controller. A wireless communication circuit is in electrical communication with the controller, and in wireless communication with an external wireless transceiver. A deterrence effector bay is in electrical communication with the controller. The deterrence effector bay includes a non-lethal deterrence effector and an actuator. Activation of the actuator causes the delivery of the non-lethal deterrence effector to a target. The drone may be used in conjunction with an alarm system as a deterrent against intrusion.

A drone for deterring intruders within a monitored area includes a multirotor aerial vehicle with an electric drive apparatus and a power supply configured to provide electrical energy. A controller is configured to control the multirotor aerial vehicle. A first sensor is in electrical communication with the controller, the sensor configured to provide navigation information to the controller. A wireless communication circuit is in electrical communication with the controller, and in wireless communication with an external wireless transceiver. A deterrence effector bay is in electrical communication with the controller. The deterrence effector bay includes a non-lethal deterrence effector and an actuator. Activation of the actuator causes the delivery of the non-lethal deterrence effector to a target. The drone may be used in conjunction with an alarm system as a deterrent against intrusion.

Pest control systems and methods are described. The systems comprise a portable electronic device which is configured to identify one or more of multiple PCDs within a range of a portable electric device which have been activated, and to provide an indication to a user corresponding to at least one of the identified activated PCDs.

Pest control systems and methods are described. The systems comprise a portable electronic device which is configured to identify one or more of multiple PCDs within a range of a portable electric device which have been activated, and to provide an indication to a user corresponding to at least one of the identified activated PCDs.