A vehicle control system includes a terminal device and a vehicle. The terminal device includes a first verification unit that verifies whether the terminal devices matches the vehicle through wireless communication when the terminal device enters an area in which wireless communication between the terminal device and the vehicle is available, and an operation instruction unit that receives an instruction to execute a predetermined operation of the vehicle from the user and the first verification unit has verified that the terminal device matches the vehicle, and transmits a signal according to the instruction to the vehicle, and the vehicle includes a second verification unit that communicates with the first identification unit and verify whether with the vehicle matches the terminal device, and an operation controller that receives the signal from the operation instruction unit and executes the predetermined operation according to the signal.

A vehicle control system includes a terminal device and a vehicle. The terminal device includes a first verification unit that verifies whether the terminal devices matches the vehicle through wireless communication when the terminal device enters an area in which wireless communication between the terminal device and the vehicle is available, and an operation instruction unit that receives an instruction to execute a predetermined operation of the vehicle from the user and the first verification unit has verified that the terminal device matches the vehicle, and transmits a signal according to the instruction to the vehicle, and the vehicle includes a second verification unit that communicates with the first identification unit and verify whether with the vehicle matches the terminal device, and an operation controller that receives the signal from the operation instruction unit and executes the predetermined operation according to the signal.

A key information management device includes an information processing device. The information processing device is configured to deliver key information to a mobile terminal as the mobile terminal transmits a predetermined transmission signal toward a vehicle. The key information is information for unlocking the vehicle, starting the vehicle, or unlocking and starting the vehicle. The information processing device is configured to register permission for a user of the vehicle to use a predetermined service using the vehicle. The permission is permission to cause the information processing device to deliver the key information to a mobile terminal of a third party concerned with the predetermined service, other than the user of the vehicle.

Method and apparatus are disclosed for key fobs for vehicle remote park-assist. An example key fob for a vehicle includes buttons including a lock button, an unlock button, and a trigger button. The example key fob also includes an antenna and a controller. The controller is configured to transmit, via the antenna, a lock signal responsive to detecting the lock button is pressed. The controller is configured to transmit, via the antenna, an unlock signal responsive to detecting the unlock button is pressed. The controller is configured to transmit, via the antenna, a remote-start signal responsive to detecting a remote-start combination of the buttons is pressed. The controller is configured to transmit, via the antenna, a remote park-assist (RePA) signal to initiate RePA of the vehicle responsive to detecting a RePA combination of the buttons is pressed.

Upon autonomous travel control of a subject vehicle having an autonomous travel control function based on a remote operation command from a remote operation device located outside the subject vehicle, when start of a remote operation by the remote operation device is input, a predetermined authentication code stored in the subject vehicle is displayed inside or outside the vehicle so as to be visible, the displayed authentication code is acquired by the remote operation device, a determination is made whether or not the authentication code acquired by the remote operation device matches the authentication code stored in the vehicle, and upon matching, a paring process between the vehicle and the remote operation device is completed.

The present disclosure is directed to an automotive computer in communication with a mobile device using an authentication manager to increase and/or reduce user privileges that determine a level of vehicle control or feature access that is granted to the user. The authentication manager may increase or decrease the user privilege to standard rider status until the authentication manager has confirmed elevated status for that user via a cloud security challenge question or via a local identification method such as using the mobile device authentication features. This process may be additionally triggered based on environmental or context-based use cases, such as a high traffic condition, local cyber-attack, or transportation of sensitive goods. The system may utilize the authentication to perform out of band pairing of the mobile device and the vehicle, which may add additional security.

A vehicle having at least one vehicle access secured by a first lock and at least one secure area secured by a second lock. The vehicle may also have a receiver configured to receive a command from a remote computing system to unlock the vehicle access or the secure area.

Systems and methods of a vehicle for sharing vehicle controls are provided. One example system is for sharing vehicle system control of the vehicle with a passenger. The system uses an on-board computer and communications circuitry of the vehicle. The communications circuitry is configured to use a wireless network for accessing the internet and the on-board computer is configured to enable the communications circuitry to provide a wireless connection to a portable device of the passenger of the vehicle. The on-board computer has access to one or more vehicle systems of the vehicle, and via the wireless connection, the on-board computer provides the portable device access to at least one graphical user interface, the graphical user interface includes input options that enable control of settings or functions of one or more of said vehicle systems. The on-board computer is configured to process information associated with a wireless signal of the portable device. The processing of the information is used to identify a location of the portable device inside the vehicle. The location of the portable device is utilized to identify a passenger seat of the vehicle and enable said control of settings or functions that pertain to an environment proximate to the passenger seat that was identified.

An entry support system includes: a first identification information acquisition unit which acquires first identification information of a first related person in a first predetermined relation with a registered user; a first related person authentication unit which determines whether or not an externally located person is the first related person when the externally located person is recognized by an externally located person recognition unit in a state where an internal user determined as the registered user by a registered user authentication unit is recognized by an internal user recognition unit; and an entry permission unit which executes entry permission processing for enabling entry of the externally located person to a closed space from an entrance, when the externally located person is determined as the first related person by the first related person authentication unit.

A system for synchronizing user preferences in a vehicle having a locking mechanism, a first remote device including a first identifier associated with a first customized user preference, and a second remote device including a second identifier associated with a second customized user preference. The system includes a CPU, a detection unit, a checking unit, and a synchronization unit. The memory device is configured to store the first customized user preference and the second customized user preference. The detection unit is configured to determine a presence of the first identifier or the second identifier within the vehicle. The checking unit is configured to identify a change to the first customized user preference or the second customized user preference, and to store the change within the memory device. The synchronization unit is configured to synchronize the first and second customized user preferences to the change stored in the memory device.