A computer system performs techniques related to enrolling and using a secure credential. In some embodiments, a computer system provides user interfaces for enrolling a secure credential on the computer system. In some embodiments, a computer system provides user interfaces for inviting a user account to use a secure credential.

A computer system performs techniques related to enrolling and using a secure credential. In some embodiments, a computer system provides user interfaces for enrolling a secure credential on the computer system. In some embodiments, a computer system provides user interfaces for inviting a user account to use a secure credential.

A system includes a curved window and a light energy emitter arranged exterior to the curved window. The system includes a light energy receiver arranged exterior to the curved window and arranged to detect light energy emitted by the light energy emitter. The light energy passes over a touchpad provided on the curved window. A touch on the touchpad may be detected by the system.

Various aspects of a device and method to manage interaction with one or more control circuits in a vehicle and one or more wearable devices are disclosed herein. The device comprises one or more circuits configured to receive a first set of input values from the one or more wearable devices associated with a first user. The one or more wearable devices are communicatively coupled to the device used in the vehicle. A second set of input values is received from one or more vehicle sensors embedded in the vehicle. An operating mode of the device is determined based on the received first set of input values and the second set of input values. One or more functions of the vehicle are controlled based on the determined operating mode of the device.

A vehicle state presentation system includes a terminal device including an ear mounting unit that is mounted on an ear of a user, and a vehicle. The vehicle includes a first communication unit that wirelessly communicates with the terminal device, and a first controller that causes the first communication unit to transmit a notification signal indicating that the vehicle detects a state of the vehicle other than a predetermined state to the terminal device, and the terminal device includes a second communication unit that wirelessly communicates with the vehicle, and a second controller that causes an output unit to perform a notification to the user based on the notification signal received by the second communication unit when the terminal device moves out of a predetermined distance range in which the vehicle is included.

A personal identification system to be applied to a vehicle includes first and second display units, an imaging unit, a display image processor, and a personal identification processor. The first display unit is provided vehicle-widthwise halfway and vehicle-lengthwise in front of a driver's seat of the vehicle. The second display unit fronts onto the driver's seat. The imaging unit is provided on the outer periphery of the first display unit. The personal identification processor makes personal registration and personal identification of a driver seated on the driver's seat based on at least first and second facial images. The first facial image includes an image of the driver's face captured by the imaging unit with the driver's gaze directed toward the first display unit. The second facial image includes an image of the driver's face captured by the imaging unit with the driver's gaze directed toward the second display unit.

A display device includes a plurality of pixel elements, each pixel comprising a display portion and a sensor portion. The display portion includes a light source embedded in a backplane layer; the light source causes an image to be rendered by the display device. The sensor portion includes a sensor embedded in the same backplane layer, the sensor detects movement within a predetermined vicinity of the display device.

At least a portion of a setting pattern of functions relating to a boat is automatically changed in response to execution of activation operations different from one another. The boat includes a controller configured or programmed to activate the boat by each of a plurality of different activation operations. When an activation operation of the activation operations satisfying a first condition is executed, the controller sets functions relating to the boat with the first setting pattern. When an activation operation not satisfying the first condition is executed, the controller sets functions relating to the boat with a second setting pattern having setting contents at least partially different from the first setting pattern.

In a parked vehicle, a head unit operating in low-power mode draws attention to a living being in a cabin of a parked vehicle. It does so by using a microphone to monitor said cabin for out-of-domain sounds, detecting a signal originating within said cabin, said signal being an acoustic signal that is representative of an out-of-domain sound, classifying said acoustic signal as being indicative of the existence of the living being within said cabin of said vehicle, and sending an alert to a first person.

Method and apparatus are disclosed for iris-detection alignment for vehicle entry and feature activation. An example vehicle includes a window, a camera facing the window, a puddle lamp to project an indicator pointing toward the camera, a UV source, and a controller. The controller is to project, via the UV source, a display onto the window upon detecting a user aligns with the indicator. The controller also is to provide directions to the user, via the display, to position an iris in front of the camera and activate a vehicle feature upon identifying the user via iris recognition.