A key information sharing system includes a delivery device that delivers key information as first information for a control device equipped in an object and a user terminal that receives the first information delivered from the delivery device. The delivery device adds second information that allows the first information to be transferred between the user terminal and a third-party terminal without the delivery device, to the first information to be delivered to the user terminal. The user terminal transmits the first information to the third-party terminal in response to an input operation by a user, when the user terminal receives the first information to which the second information has been added.

A method according to one embodiment includes receiving, by an access control device, a credential token from a mobile device, wherein the credential token includes an access credential, a credential identifier, and a caveat that instructs the access control device to perform an associated action, determining, by the access control device, a credential type associated with the access credential based on the credential identifier, determining, by the access control device, a set of caveat rules associated with the credential type, wherein the set of caveat rules identifies one or more actions authorized for an access credential of the credential type, and performing, by the access control device, the associated action identified by the caveat in response to a determination that the associated action is an action authorized by the set of caveat rules associated with the credential type.

The present disclosure relates a set of electronic keys for an electronic lock. The set of electronic keys includes at least one passive electronic key having a passive digital key, and at least one active electronic key having an active digital key. Each of passive and active electronic keys includes a communication channel and an electronic key power supply port. The active electronic key includes electrical power source providing electrical power supply to the active electronic key itself, the electronic lock and the passive electronic key through the electronic lock to operate the electronic lock. When both active and passive electronic keys are inserted into respective electronic keyholes of the electronic lock, both active and passive digital keys are transmitted to the electronic lock, the electronic lock can be locked and unlocked only when both active and passive digital keys received match prestored active and passive digital keys respectively.

A system, program product, and method for automatic collection, generation, and presentation of real time information to vehicular occupants are presented. The method includes determining a first driver profile for a first driver of a first vehicle. The method also includes determining, subject to the first driver profile determination, a color assignment for the first driver. The color assignment is at least partially indicative of the driver profile and the color assignment is at least a portion of a representation of the first driver. The method further includes communicating the color assignment to one or more of one or more potential occupants of the first vehicle and one or more occupants of the first vehicle.

A security apparatus for an energy storage system is provided. The security apparatus includes a sensor input unit receiving security state information including door opening and closing and locking/unlocking from a door opening and closing sensor and a locking/unlocking sensor; a human machine interface (HMI) unit receiving information from a user or showing the information to the user; and a security state machine allowing manipulation of the energy storage system depending on whether security state information obtained through the sensor input unit satisfies a security state condition having a plurality of procedures in order.

Systems and methods for vehicle customization are disclosed. Customizing a vehicle configuration may include associating a wireless device of a user with the vehicle. The vehicle customization system may detect a first occurrence of an event corresponding to a set of customizable control options for the vehicle. The vehicle customization system may optionally respond to the first occurrence of the event based on a default option of the set of customizable control options. The vehicle customization system may send, to the wireless device, a notification of the event. The vehicle customization system may receive, from the wireless device, a selected control option of the set of customizable control options corresponding to the event. The vehicle customization system may respond to a second occurrence of the event based on the selected control option.

An authentication system for authenticating a human requester requesting a service, wherein the authentication system is configured to establish via a first and a second port of the authentication system an authentication communication channel comprising a first communication channel to the requester and a second communication channel to a human authenticator, such that at least one of an audio stream of a voice of the requester, a video stream of a face of the requester and a 3D-data stream of the face of the requester is transmittable between the end node device of the requester and the end node device of the authenticator; and to record a confirmation message of the authenticator, wherein the confirmation message confirms or rejects at least one of the claimed identity and the requested service.

The present disclosure relates an electronic locking system. In certain embodiments, the electronic locking system includes a passive electronic lock, active electronic key and passive electronic key. The passive electronic key stores a passive digital key, and the active electronic key stores an active digital key. Each of passive and active electronic keys includes a communication channel and an electronic key power supply port. The active electronic key includes electrical power source providing electrical power supply to active electronic key, passive electronic lock and passive electronic key through passive electronic lock to operate passive electronic lock. When both active and passive electronic keys are inserted into respective electronic keyholes of passive electronic lock, both active and passive digital keys are transmitted to passive electronic lock, passive electronic lock can be locked and unlocked only when both active and passive digital keys received match prestored active and passive digital keys respectively.

Techniques for controlling plant assets in a process plant include assigning permissions to users and user interface devices within the process plant, where the permissions specify a level of access to a plant asset. The permissions are then provided to the user interface devices. When a user connects a user interface device to a plant asset, the user interface device determines which operations the user may perform on the connected plant asset based on the permissions granted to the user.

The safety management apparatus comprises a protective shield with automatic opening and closing, a sensor configured to obtain physical information related to an occupant boarded an autonomous traveling cart, and a controller configured to control the opening and closing of the protective shield. The protective shield is configured to be normally open and, when closed, shield an occupant space of the cart from the outside. The controller includes at least one memory including at least one program, and at least one processor coupled with the at least one memory. The at least one processor executes a first process and a second process upon execution of the at least one program. The first process is to determine whether the occupant is an infant based on the physical information. The second process, which is executed when the occupant is determined to be an infant, is to close the protective shield.