An access control system includes a plurality of physical access control readers that form a reader network which utilizes a first communication protocol. The system includes a plurality of mobile communication devices each having a first communication interface and a second communication interface. The first communication interface enables the mobile communication devices to access a mobile communication network which utilizes a second communication protocol, and the second communication interface enables the mobile communication devices to communicate with the access control readers. The plurality of physical access control readers exchange status information for the plurality of physical access control readers and for the plurality of mobile communication devices over the reader network.

An access control system includes a plurality of physical access control readers that form a reader network which utilizes a first communication protocol. The system includes a plurality of mobile communication devices each having a first communication interface and a second communication interface. The first communication interface enables the mobile communication devices to access a mobile communication network which utilizes a second communication protocol, and the second communication interface enables the mobile communication devices to communicate with the access control readers. The plurality of physical access control readers exchange status information for the plurality of physical access control readers and for the plurality of mobile communication devices over the reader network.

An automated door system includes a first door control module configured to be mounted in a fixed position relative to a powered door and a second door control module configured to be carried by a user and configured to be in electronic communication with the first door control module to control at least one of an opening actuation and a closing actuation of the powered door. A method of controlling the powered door may include wirelessly electronically connecting a second door control module to a first door control module, determining a proximity of the second door control module to the first door control module, an automating the opening and closing of the powered door in response to a position of the second door control module relative to the first door control module.

An automated door system includes a first door control module configured to be mounted in a fixed position relative to a powered door and a second door control module configured to be carried by a user and configured to be in electronic communication with the first door control module to control at least one of an opening actuation and a closing actuation of the powered door. A method of controlling the powered door may include wirelessly electronically connecting a second door control module to a first door control module, determining a proximity of the second door control module to the first door control module, an automating the opening and closing of the powered door in response to a position of the second door control module relative to the first door control module.

A system and method are disclosed for identifying a user based on the classification of user movement data. An identity verification system receives a sequence of motion data from a mobile device operated by a target user. From the sequences of motion data, the identity verification system identifies a plurality of identity blocks representing different movements performed by the target user and encodes a set of signature sequences from each identity block into a feature vector. Each feature vector is input to a confidence model to output an identity confidence value for an identity block. An identity confidence value describes a confidence that the movement in the identity block was performed by the target user. The identity confidence value is compared to an operational security threshold and if identity confidence value is above the threshold, the target user is granted access to an operational context.

A system and method are disclosed for identifying a user based on the classification of user movement data. An identity verification system receives a sequence of motion data from a mobile device operated by a target user. From the sequences of motion data, the identity verification system identifies a plurality of identity blocks representing different movements performed by the target user and encodes a set of signature sequences from each identity block into a feature vector. Each feature vector is input to a confidence model to output an identity confidence value for an identity block. An identity confidence value describes a confidence that the movement in the identity block was performed by the target user. The identity confidence value is compared to an operational security threshold and if identity confidence value is above the threshold, the target user is granted access to an operational context.

A vehicle system is disclosed herein. A display panel is disposed on the exterior of the vehicle and is configured as a user interface for receiving inputs from a user. An occupant detection device is configured to detect the position of an occupant of the vehicle. A controller is configured to receive a request for pickup from a potential passenger via a first communication; register authorization information based on the first communication; receive a request for vehicle access via a second communication that includes authorization information; and control one or more doors of the vehicle to allow the potential passenger access to the vehicle via the one or more doors in response to the authorization information registered based on the first communication corresponding to the authorization information from the second communication, wherein the controller allows access via the one or more doors based on the position of the occupant detected by the occupant detection device.

A computer-implemented method, a computer system and a computer program product secure access to a restricted area. The method includes capturing, by a camera, a first image of a face of a first person and a second image of a face of a second person. The method also includes determining whether the face of the first person is included in a database of persons authorized to access the restricted area. The method further includes determining whether the second person is in proximity to the first person. In addition, the method includes determining whether the second person is authorized to access the restricted area. Finally, the method includes transmitting a signal that the second person is authorized to access the restricted area in response to determining that the second person is in proximity to the first person and the second person is authorized to access the restricted area.

A computer-implemented method, a computer system and a computer program product secure access to a restricted area. The method includes capturing, by a camera, a first image of a face of a first person and a second image of a face of a second person. The method also includes determining whether the face of the first person is included in a database of persons authorized to access the restricted area. The method further includes determining whether the second person is in proximity to the first person. In addition, the method includes determining whether the second person is authorized to access the restricted area. Finally, the method includes transmitting a signal that the second person is authorized to access the restricted area in response to determining that the second person is in proximity to the first person and the second person is authorized to access the restricted area.

An integrated security management system is provided. The system includes an application server and a plurality of sensors deployed in a geographical area. The application server receives first sensor data from the plurality of sensors and provide to a trained classification model as input and detects a security alert based on output thereof. The application server determines a patrol route that encompasses a location of security alert and transmits a surveillance request to electronic device of a security operator to patrol the patrol route and identifies one or more sensors that covers the location of the security alert and receives second sensor data therefrom based on location of the electronic device being same as location of the security alert. The application server further re-trains the classification model based on the second sensor data when feedback received from the electronic device indicates the security alert to be a false positive.