A system and method of controlling a securable device may include establishing a centralized data repository with data representative of status of each securable device. Communications with a mobile kiosk executing on a mobile device of a user may be established. Responsive to receiving a request from the mobile kiosk to identify an available securable device local and accessible to the user, the centralized data repository may be accessed, at least one securable device that is available may be identified, and data associated with the identified available securable device(s) may be communicated to the mobile kiosk to cause the mobile kiosk to communicate at least a portion of the data to one of the securable device(s) to provide access thereto. Responsive to receiving a status update of the securable device accessed from the mobile kiosk, the centralized data repository may be updated with the status update.

The system includes an electronically controllable access point device and a server. The server includes one or more processors, which are communicatively coupled to the access point device and a portable device. The one or more processors are configured to determine whether a user of the portable device is authorized to access the access point device based on one or more credentials received from the portable device and retrieve a location of the portable device. The one or more processors are further configured to determine whether the location of the portable device is within a pre-defined geographical area. Upon determination of user authorization to the access point device and that the location of the portable device is within the pre-defined geographical area, the one or more processors direct the access point device to provide access to the user.

According to one embodiment, a method of conserving energy while seeking to wirelessly actuate an access control using a mobile device is provided. The method including: searching for a wireless signal at a first rate; detecting a wireless signal; generating a zone of interest; detecting positional data of a mobile device; and searching for a wireless signal at a second rate greater than the first rate when positional data of the mobile device indicates that the mobile device is within the zone of interest.

Communication with a key fob of a vehicle can be controlled based on a key fob jamming condition. One or more sensors can be configured to detect the key fob jamming condition. In response to the key fob jamming condition being detected, a jamming device can be activated to cause one or more jamming signals to be emitted. The one or more jamming signals can prevent the key fob from receiving and responding to other signals.

A server that shares key information to a portable terminal includes processing circuitry configured to deliver the key information to the portable terminal. The key information is associated with an object equipped with a control device, and the control device performs a predetermined control to the object when the control device receives the key information from an external terminal. The key information includes restriction information, where the restriction information sets a restriction content for the predetermined control.

In a method and system for opening a container having a lock device, a mobile terminal exchanges data with the lock device using near-field data transmission and exchanges data with a server using far-filed data transmission. The mobile terminal stores container reconfiguration data and container operating data, which include at least time data and access data. The server generates new container reconfiguration data in response to receiving the container operating data from the mobile terminal and transmits the new container reconfiguration data to the mobile terminal using the far-field data transmission. The new container reconfiguration data are then transmitted from the mobile terminal to the lock device using the near-filed transmission.

The system includes an electronically controllable access point device and a server. The server includes one or more processors, which are communicatively coupled to the access point device and a portable device. The one or more processors are configured to determine whether a user of the portable device is authorized to access the access point device based on one or more credentials received from the portable device and retrieve a location of the portable device. The one or more processors are further configured to determine whether the location of the portable device is within a pre-defined geographical area. Upon determination of user authorization to the access point device and that the location of the portable device is within the pre-defined geographical area, the one or more processors direct the access point device to provide access to the user.

A vehicle control apparatus is mounted on a vehicle to perform wireless communication with a portable terminal. The vehicle control apparatus includes a first processor and a second processor. The first processor execute a first process to determine whether or not a wireless signal is a regular wireless signal transmitted from the portable terminal. The second processor executes a second process including an authentication of the portable terminal in response to the received wireless signal being determined to be the regular wireless signal, and does not execute the second process in response to the received wireless signal being determined to be not the regular wireless signal. Herein, a power consumption when the first processor executes the first process is smaller than a power consumption when the second processor executes the second process.

A vehicle control system includes an entry ECU that performs first authentication processing for access from an outside of a vehicle, a door control ECU that controls locking and unlocking of a door of the vehicle, and a central ECU, the entry ECU transmits a first startup request, which instructs to start up the central ECU, before executing the first authentication processing, and the central ECU transmits a second startup request which instructs to start up the door control ECU.

In a method and system for opening a container having a lock device, a mobile terminal exchanges data with the lock device using near-field data transmission and exchanges data with a server using far-filed data transmission. The mobile terminal stores container reconfiguration data and container operating data, which include at least time data and access data. The server generates new container reconfiguration data in response to receiving the container operating data from the mobile terminal and transmits the new container reconfiguration data to the mobile terminal using the far-field data transmission. The new container reconfiguration data are then transmitted from the mobile terminal to the lock device using the near-filed transmission.