A vehicle antitheft system includes a house security device and a vehicle security device. The house security device includes a detection unit and a transmission unit configured to transmit a notification when a state change of a predetermined security unit is detected by the detection unit. The vehicle security device includes a reception unit configured to receive the notification transmitted from the transmission unit and a function control unit configured to control a vehicle antitheft function depending on whether the notification is received by the reception unit. The function control unit is configured to release the vehicle antitheft function when the notification is not received and a regular vehicle key is used to operate a vehicle, and to restrict releasing of the vehicle antitheft function when the notification is received and the regular vehicle key is used to operate the vehicle.

A vehicle antitheft system includes a house security device and a vehicle security device. The house security device includes a detection unit and a transmission unit configured to transmit a notification when a state change of a predetermined security unit is detected by the detection unit. The vehicle security device includes a reception unit configured to receive the notification transmitted from the transmission unit and a function control unit configured to control a vehicle antitheft function depending on whether the notification is received by the reception unit. The function control unit is configured to release the vehicle antitheft function when the notification is not received and a regular vehicle key is used to operate a vehicle, and to restrict releasing of the vehicle antitheft function when the notification is received and the regular vehicle key is used to operate the vehicle.

Systems and methods for detecting potential theft and identifying individuals having a history of committing theft are presented. An electromagnetic emission associated with a personal electronic device associated with an individual is received. One or more signal properties of the electromagnetic emission are analyzed to determine an emission signature. Video data and video analytics are utilized to determine whether an individual has taken possession of an item. The video analytics are correlated with the emission signature in an attempt to identify the individual having possession of the item. The emission signature and video data are stored for later use during a checkout procedure. If an emission signature detected at a checkout station matches that of the individual having possession of the item, and the item is not processed through the checkout station, an alert is issued and the individual is flagged as a potential shoplifter.

Systems and methods for detecting potential theft and identifying individuals having a history of committing theft are presented. An electromagnetic emission associated with a personal electronic device associated with an individual is received. One or more signal properties of the electromagnetic emission are analyzed to determine an emission signature. Video data and video analytics are utilized to determine whether an individual has taken possession of an item. The video analytics are correlated with the emission signature in an attempt to identify the individual having possession of the item. The emission signature and video data are stored for later use during a checkout procedure. If an emission signature detected at a checkout station matches that of the individual having possession of the item, and the item is not processed through the checkout station, an alert is issued and the individual is flagged as a potential shoplifter.

A method for controlling an electric vehicle and the electric vehicle are provided. The method includes: under a condition in which the electric vehicle is in unlocked and motor control shielded states, first predetermined information is detected, wherein the first predetermined information is used for indicating that a rider is located on the electric vehicle; the electric vehicle is controlled to switch from the motor control shielded state to a motor control unshielded state; a predetermined control signal is received in the motor control unshielded state; and a motor of the electric vehicle is controlled to rotate according to a rotational speed corresponding to the predetermined control signal. With the disclosure, the problems of complex operation and poor user experience of a manner for controlling the electric vehicle in the related art are solved.

This disclosure relates generally to authenticating humans based on behavioral pattern. The method and system proposed provides a continuous/seamless monitoring platform for authenticating humans by continuously monitoring routine activities of subjects (Activities of Daily Living (ADL)) in a smart environment using plurality of passive, unobtrusive, binary, unobtrusive non-intrusive sensors embedded in living infrastructure. The proposed method and system for authenticating humans based on behavioral pattern is provided. The daily routine activities of humans/subjects, housed in a smart environment is continuous monitored by plurality of non-intrusive sensors embedded in living infrastructure. Further the collected sensor data is processed in several stages, which includes pre-processing of sensor data, behavioral pattern prediction, error detection based on predicted behavioral pattern and so on for authenticating humans based on behavioral pattern.

A remote location monitoring system, for example, a home monitoring or weather monitoring system may include one or more sensors and/or receivers at a first location such as a residence or business to be monitored. The sensors and receivers may communicate with a remote central server via a gateway device and the detection data received from the sensors and receivers may be displayed via display circuitry coupled to a processor of the gateway device. The sensors, receivers, and gateway device may be controlled by users locally or remotely via the server. Users may register to receive remote notifications of weather events and other home monitoring events. Users may also access remotely sensors and receivers to configure alerts, notifications, and automatic responses for the devices and integrated appliances at the first location.

In an example, the present technique provides a method for processing signals from a human user in connection with a sleep state. Preferably, the method includes using information from the signals for digital cognitive behavioral therapy to improve a sleep state of the human user. In an example, the method generally includes sensing of human activities, processing information from such sensing, outputting a task to the user, monitoring a reaction from the user, and adjusting any one of the aforementioned, to improve a sleep state of the user

A system, method and program product for developing and deploying a rapidly deployable barrier system. The present disclosure further relates to a rapidly deployable barrier system that provides an expandable set of optional features that may be employed when the rapidly deployable barrier system deployed.

A system providing self-service access to locked merchandise comprising: (a) providing a fixture that restricts access to the locked merchandise, wherein the fixture can automatically lock or unlock, allowing or restricting access to the locked merchandise; (b) providing a means of uniquely identifying an individual attempting to access the merchandise; (c) measuring a set of behaviors of the individual during any time the fixture is an open mode; (d) assessing whether the set of behaviors of the individual are suspicious or not relative to a set of suspicious event thresholds; (e) storing the individual and their set of behaviors as accessible records in at least one database; and (f) providing an algorithm which determines future access privileges of the individual to the enclosure based on a set of variables.