A computer includes a processor and a memory, the memory storing instructions executable by the processor to collect biometric data of a vehicle user, identify a set of user-specific data from one or more stored sets of user-specific data based on the biometric data, and receive a request for a stored location. When the biometric data of the vehicle user match the stored biometric data, the instructions include instructions to display the requested location. When the biometric data of the vehicle user do not match the stored biometric data, the instructions include instructions to identify an offset location based on the requested location and a population density of the requested location and display the offset location.

An embodiment vehicle includes a display device, an input device configured to obtain an input of a user, a smart key identifying device configured to search for a smart key of a plurality of smart keys, and a controller electrically connected to the display device, the input device, and the smart key identifying device, wherein the controller is configured to control the smart key identifying device to search for the smart key located inside the vehicle based on receiving a first command for executing a face registration process through the input device and to determine whether to proceed with the face registration process based on how many of the plurality of smart keys are identified as being inside the vehicle.

Methods, apparatus, and systems for passenger authentication and entry for autonomous vehicles are disclosed. A vehicle receives information over a first communication channel from a first mobile device. The information specifies a geographical location. The information causes the vehicle to arrive at the geographical location. The vehicle transmits a first message to a second mobile device indicating that the vehicle has arrived at the geographical location. The first message includes a graphical icon representing the vehicle. The graphical icon is for display on a user interface of the second mobile device. The vehicle receives a second message from the second mobile device over a second communication channel. The second message indicates that the graphical icon was dragged across the user interface into a graphical receptacle displayed on the user interface. Responsive to receiving the second message, at least one door of the vehicle is unlocked.

A biometric information authentication device includes an authentication unit to change an authentication threshold value used for authentication to increase difficulty of authentication when authentication of biometric information by checking against registered biometric information is unsuccessful a predetermined number of times.

A vehicular exterior rearview mirror assembly includes a mounting arm and a mirror head at one end of the mounting arm distal from an attachment portion of the mounting arm that is configured for attachment at a vehicle. A mirror reflective element is fixedly attached at the mirror head. An innermost side of the mirror reflective element is attached at a front side of an attachment plate. The mirror reflective element moves in tandem with movement of the mirror head relative to the mounting arm when the driver of the vehicle operates an electrically-operable actuator. The attachment plate includes wall structure that extends from the front side of the attachment plate and circumscribes and spans the perimeter circumferential edge of the glass substrate and does not encroach onto and does not overlap the front surface of the glass substrate of the exterior mirror reflective element.

Methods and systems for autonomous vehicle recharging or refueling are disclosed. Autonomous vehicles may be automatically refueled by routing the vehicles to available fueling stations when not in operation, according to methods described herein. A fuel level within a tank of an autonomous vehicle may be monitored until it reaches a refueling threshold, at which point an on-board computer may generate a predicted use profile for the vehicle. Based upon the predicted use profile, a time and location for the vehicle to refuel the vehicle may be determined. In some embodiments, the vehicle may be controlled to automatically travel to a fueling station, refill a fuel tank, and return to its starting location in order to refuel when not in use.

An autonomous robotic vehicle includes a conveyance system, a securable compartment configured to autonomously lock and unlock, a customer identification reader, at least one processor, and a memory storing instructions which, when executed by the at least one processor, causes the autonomous robotic vehicle to, autonomously: travel to a destination location of a customer; capture, by the customer identification reader at the destination location, a customer identification object; determine that the captured customer identification object matches an identity of the customer; unlock the securable compartment based on the determination; capture, by the product identification reader, a product identifier; and accept a product to be returned by locking the securable compartment. The securable compartment contains a product identification reader.

The present invention relates generally to the field of vehicle key fobs. More specifically, the present invention relates to a vehicle key fob device comprised of a vehicle key fob that has a housing, a flashlight, a biometric scanner, a plurality of LED-illuminated buttons/emblems and a button that allows the color of the LED-illuminated buttons to change. The fob may have a plurality of buttons in differing embodiments, which are preferably illuminated via at least one LED that is positioned below each button. However, in one embodiment a singular large LED may sit below all buttons to illuminate the buttons simultaneously. The at least one LED can also produce any color known in the art, which can be changed by a user by pressing a color change button located on the side surface of the fob.

A vehicle includes a controller, programmed to responsive to identifying a first user via a mobile device, load a first non-person entity associated with the first user from the mobile device to configure vehicle settings, the first non-person entity including a driver setting, a first entertainment setting and a second entertainment setting; and responsive to identifying a second user entering the vehicle, switch from the first entertainment setting to a second entertainment setting.

An information processing apparatus has a controller configured to identify a driver of a vehicle on the basis of at least one of the results of first authentication based on a first part of the living body of a user and second authentication based on a user device. The controller gives higher priority to the result of first authentication than the result of second authentication in the processing of identifying the driver of the vehicle. The user device may include a first communication terminal capable of functioning as an electronic key of the vehicle and a second communication terminal incapable of functioning as an electronic key of the vehicle. The controller gives higher priority to the result of authentication of the first communication terminal than the result of authentication of the second communication terminal.