The invention relates to a method and system for controlling access from a communications network (2) to any device (4) that is opened automatically, said system comprising a mobile device (2) and a remote control (1). The remote control (1) is characterised in that it: obtains the signals that control the automatic opening devices (4), either by means of cloning via antenna or using other means, and transmits said signals to the communications network (3), by means of its connection to any mobile device (2). Access can then be controlled from the communications network (3), simply by transmitting the signal that actuates the automatic opening device (4), via the mobile device (2) to which the remote control (1) is connected, to another requesting remote control (1). The remote control (1) then transmits the signal allowing the actuation thereof. Any remote control (1) can be used to actuate any automatic opening device (4).

A method for enhanced authorization to access transportation hub services is provided that includes creating, by an electronic device, a token based on credentials of a traveler. Moreover, the method includes displaying the token by the electronic device for scanning for accessing a security service area and determining whether the credentials are valid. In response to determining the credentials are valid, a traveler operating the electronic device is authorized to access the security service area. Otherwise, the traveler is denied access to the security service area.

A vehicle includes a storage to store an authority value representing authority to access vehicle data generated by at least one vehicular component and a communicator to transmit the vehicle data and the authority value to a user terminal.

Systems, methods, and apparatuses for location-based automated authentication are disclosed. A system comprises a mobile device, a sensor and a backend platform. The sensor and the backend platform are in network communication. The mobile device is operable to continuously transmit Bluetooth Low Energy (BLE) signals comprising encrypted transitory identifiers. The sensor is operable to receive a BLE signal from the mobile device when the mobile device is within a predetermined range, and communicate over a network connection the encrypted transitory identifier comprised in the BLE signal to the backend platform. The backend platform is operable to extract a unique identifier and a changing encrypted identifier from the received encrypted transitory identifier, generate a changing encrypted identifier, and validate a user identification by comparing the generated changing encrypted identifier and the extracted changing encrypted identifier.

An access control system for electric vehicle charging is provided that includes an access device, a secure reservation interface, a reservation server and a smartphone application installed on the smartphone. The access device includes a short-range wireless communication module connected to a processor having control of an electric vehicle charger. The secure reservation interface receives a reservation request for a reservation at a given destination. The reservation server receives the reservation request for the destination, issues a reservation certificate, and transmits the reservation certificate from the reservation server to a smartphone. The smartphone application has access to a short range wireless communication setting corresponding to the access device. The access device receives the reservation certificate from the smartphone application based on use by the smartphone application of the short-range wireless communication setting. The processor activates the electric vehicle charger based on at least the receipt of the reservation certificate.

An access control system for electric vehicle charging is provided that includes an access device, a secure reservation interface, a reservation server and a smartphone application installed on the smartphone. The access device includes a short-range wireless communication module connected to a processor having control of an electric vehicle charger. The secure reservation interface receives a reservation request for a reservation at a given destination. The reservation server receives the reservation request for the destination, issues a reservation certificate, and transmits the reservation certificate from the reservation server to a smartphone. The smartphone application has access to a short range wireless communication setting corresponding to the access device. The access device receives the reservation certificate from the smartphone application based on use by the smartphone application of the short-range wireless communication setting. The processor activates the electric vehicle charger based on at least the receipt of the reservation certificate.

Embodiments of a system and method for interactive barcode communication are described. In one embodiment, a mobile device presents a barcode to an information or transaction receptacle associated with the point of entry device. One embodiment provides for a method of transmitting data from an unconnected point of access device using an interactive barcode communication system on a mobile device, where the method comprises accessing a set of data on a point of access device, wherein the point of access device is unconnected from a data network with access to a central system database; dividing the set of data into multiple sections; incorporating the multiple sections into scan images for display during per-user transactions at the point of access device; and displaying the point of access data along with per-user transaction data during an interactive barcode communication transaction.

Disclosed herein is a shipping container that includes numerous multi-factor authentication (MFA) tie ins to provide added security to the container. In some embodiments, the shipping container is associated with a mobile user profiles within a mobile application. A retailer makes a sale, then, using a mobile application, associates the container with the destination address and the MFA details associated with the buyer's mobile application account. Once the container is loaded up, the container will not open again except for the buyer using the buyer's MFA authentication credentials.

Methods and systems are provided. One method includes processing operations to share electronic keys (e-keys). The method includes receiving a request to share an electronic key (e-key) of a vehicle with a recipient device. The request to share the e-key is initiated by sending a message to the recipient device using a sharing device. The method includes processing the request to validate the request to share the e-key, as received from the sharing device having associated therewith a registered owner e-key. Processing the request includes generating the e-key securely by the sharing device and registering the e-key that was generated with a server associated with a manufacturer of the vehicle. The method includes enabling the e-key for use on the vehicle by the recipient device responsive to said processing of the request. The request to share the e-key includes enabling a setting to apply a privilege level for use of the vehicle via the e-key. The privilege level provides one or more conditions of use of the vehicle via the e-key.

In one aspect, a portable electronic device is provided for accessing a secured area to deliver a package therein. The portable electronic device includes a sensor configured to detect an indicium of the package and communication circuitry configured to communicate a message to a server computer associated with the package upon the sensor detecting the indicium. The communication circuitry is further configured to receive delivery information from the server computer, the delivery information including at least a location of the secured area. The portable electronic device further includes a processor operatively coupled to the sensor and the communication circuitry. The processor is configured to cause, via the communication circuitry, the movable barrier operator to open a movable barrier associated with the secured area.