Methods, apparatus, systems and articles of manufacture are disclosed for audio equalization based on variant selection. An example apparatus to generate equalization adjustments for an audio signal based on user input includes a user interface to prompt a user for the user input corresponding to a selected variant of music, and an input feature set generator to generate an equalization input feature set, the equalization input feature set to be used by a model executor to adjust at least one weight of a neural network model to generate example equalization adjustments for the audio signal based on the user input, the equalization input feature set generated by: generating a data structure corresponding to the user input, the data structure including a number of entries identifying the selected variant of music, and including the data structure in the equalization input feature set.

A mode controller for a vehicle, a method therefor, and a vehicle system are provided. The mode controller includes a screen configuration device that configures a touch input screen on a touch screen and a controller that detects a pattern of a touch input which is input through the touch input screen. A determination device compares the detected pattern of the touch input with a plurality of patterns which are previously defined for each mode to determine whether there is a pattern identical to the pattern of the touch input. A mode execution device executes a function of a mode defined in response to the pattern identical to the pattern of the touch input.

A vehicle control system includes a vehicle, an information terminal apparatus that can provide, on a display unit, a plurality of contents which provide training on an operation method of the vehicle, and a server that can communicate with the vehicle and the information terminal apparatus. The information terminal apparatus includes a display control unit configured to cause the display unit to display a first content that provides training on an operation method including a method to start an operation of a specific function of the vehicle and a second content that provides, to a user of the vehicle who has been trained by the first content and is registered in the server, training on an operation method corresponding to a phenomenon that can occur while the specific function is provided.

In an in-vehicle terminal device that is able to perform communication with a server device, an identification information acquisition unit acquires identification information of a user who boards a vehicle. A communication unit transmits the identification information of the user to the server device and receives arrangement information of a plurality of display elements corresponding to the identification information of the user transmitted from the server device. A setting unit decides an arrangement of the display elements of the in-vehicle display according to an arrangement criterion based on vehicle type information of the vehicle using the arrangement information of the display elements corresponding to the identification information of the user.

According to one aspect, driver management is provided. One or more speech segments of a driver of an autonomous vehicle may be recorded. A position, a destination, or a previous destination of a driver or an autonomous vehicle may be tracked. An estimated state of the driver may be determined based on one or more of the speech segments, the position, the destination, or the previous destination, and a calendar event associated with the driver or a passenger of the autonomous vehicle. Autonomous driving features may be automatically enabled, disabled, or operation of the autonomous vehicle may be enabled or disabled in different modes based on the estimated state of the driver. Additionally, notifications may be displayed, rideshare applications may be launched, or warnings may be sent based on the estimated state of the driver.

Embodiments are disclosed for gaze tracking with an in-vehicle computing system. In one example, an in-vehicle computing system of a vehicle includes a camera, a light source, a display, a processor, and a storage device storing instructions executable to direct light from the light source to an eye of one or more occupants of the vehicle, receive, at the camera, light reflected from the eye of the one or more occupants of the vehicle, determine a gaze direction of each of the one or more occupants of the vehicle, and operate one or more of the in-vehicle computing system and another vehicle system based on the determined gaze direction.

A vehicle includes: a position-adjustable steering wheel, a position-adjustable driver's seat, a display extending on the dashboard from one side facing the driver's seat to another side in which a center fascia is disposed, at least one image sensor configured to capture a vehicle interior image to obtain the vehicle interior image, a storage configured to store driver's seat positioning information of the driver's seat and steering wheel positioning information of the steering wheel, and a controller configured to obtain eye position information indicating a position of each of eyes of the driver with respect to the steering wheel based on at least one of the driver's seat positioning information or the vehicle interior image, determine a covered area on the display, covered by the steering wheel, based on the eye position information and the steering wheel positioning information, and adjust an output position of an image output on the display based on the covered area.

A vehicle information display system includes: a master-side instrument including a first power transmission coil, a first signal transmission coil, and a first case; and a meter instrument including a display unit, a second power transmission coil, a second signal transmission coil, and a second case. The master-side instrument and the meter instrument have a positional relation such that in a state in which a fitting recessed part of the first case and the second case are fitted to each other, the first power transmission coil is opposed to the second power transmission coil, and the first signal transmission coil is opposed to the second signal transmission coil.

A display device (100) for a vehicle includes: a plurality of display units (170, 180) which are mounted in the vehicle; an operation unit (110) that is configured to accept an operation of selecting content that is displayed on some or all of the plurality of display units; a determination unit (120) that determines a sitting position of a person who operates the operation unit; and a display control unit (130) that is configured to cause any one of the plurality of display units to display content on the basis of an operation that is accepted by the operation unit and a determination result of the determination unit. In a state in which content is displayed on any one of the plurality of display units, in a case where an operation of performing display of new content is accepted by the operation unit, the display control unit is configured to change a display aspect of the content that is already displayed on the basis of a determination result of the sitting position by the determination unit.

A vehicle display configuration system and method employs a display, an eye tracker and a controller. The eye tracker is configured to track eye movement of a user viewing the display. The controller is configured to control the display to sequentially display sets of a plurality of images for comparison and selection by the user, to receive selection information representing a respective selected image from each of the sets being displayed on the display as selected by the user, to analyze eye tracker eye movement information received from the eye tracker representing eye movement of the user while the user is viewing each of the sets being displayed on the display, and to designate a vehicle display image based on the selection information and a result of the analysis of the eye movement information.