A cleaning device for a surface, such as a windshield of a vehicle, has a housing that holds a spray bar, rotatable brush and a wiper blade. An engagement mechanism moves spray bar, the brush, and the wiper blade out from a disengaged position within the housing to an engaged position outside the housing so that they can be used to clean, brush, and dry the surface. After the spray bar, brush, and wiper blade are used to, respectively, clean, brush, and dry the surface, the engagement mechanism then moves the spray bar, the brush, and the wiper blade to a disengaged position within the housing.

A vehicle control device that operates in an autonomous driving mode, the vehicle control device can include a controller that is configured to obtain vehicle driving information of a vehicle, in a state in which (i) the vehicle moves within a first distance from a destination or (ii) the vehicle receives a stop request while the vehicle is travelling, search for at least one available stopping area based on the vehicle driving information, and display information about the at least one available stopping area on a display unit or transmit the information to a terminal, further the controller is further configured to determine a location of an occupant inside the vehicle, and display the information about the at least one available stopping area on any one selected display inside the vehicle according to which display corresponds to the location of the occupant inside the vehicle.

Present application discloses display apparatus including: display panel having display surface to display image; and overlaid member overlaid on display surface. Overlaid member partitions display surface into inner region at least partially surrounded by overlaid member, and outer region situated outside overlaid member. Image contains inner and outer images displayed in inner and outer regions. Display panel includes signal generator for generating first image signal for changing content of the inner image displayed in inner region in response to first switching signal outputted from first switch. Signal generator generates second image signal for changing content of the outer image displayed in outer region in response to second switching signal outputted from second switch which is more distant from steering wheel than first switch.

The button structure including a front panel configured to define a body and having a mounting hole formed in a front surface of the front panel directed toward an interior of an occupant compartment, a button unit accommodated in the mounting hole and configured to selectively control various types of AV systems of a vehicle, a detection unit accommodated in the front panel and configured to detect a user's hand, a switch unit configured to operate various types of AV systems of the vehicle under the control of the button unit, and a lighting unit accommodated in a housing and configured to emit light to the button unit in response to a detection signal of the detection unit, in which the detection unit is disposed rearward of the button unit and positioned from the button unit in a direction opposite to the direction toward the interior of the occupant compartment.

In accordance with one embodiment of the present disclosure, a method includes measuring brain activity for a target frequency and a second harmonic frequency based on a default value of display parameters for a plurality of icons, determining whether a strength of the target frequency and the second harmonic frequency are below a threshold level, and modifying one or more display parameters in response to the strength of the target frequency and the second harmonic frequency being below the threshold level.

An integrated control apparatus for an autonomous vehicle includes: a movable control device corresponding to a portable device that performs steering, gear-shifting, acceleration, and braking of a vehicle by a user's control when a driving mode is shifted from an autonomous driving mode to a manual driving mode; and a fixed display device controlled in a touch manner to perform other functions other than steering, gear-shifting, acceleration, and braking, wherein a steering dial switch, a gear-shifting slide switch, an acceleration rotary switch, and a brake button switch are disposed in the movable control device and are manipulated differently.

A cleaning device for a surface, such as a windshield of a vehicle, includes an active positioning system and a cleaning head. The active positioning system is configured to deploy from a storage position hidden from view within a covered storage space and to position the cleaning head upon the windshield. The active positioning system includes a first extension member and a second extension member that move relative to one another to position the cleaning head, and also move the cleaning head across the windshield along a path. The cleaning head can have a brush portion configured to agitate debris from the window, and a drying portion configured to dry the window after cleaning. The cleaning device can be controlled via a touch-screen display in the vehicle, enabling a user to direct that specific portions of the windshield be cleaned as desired.

The present disclosure provides systems and methods to obtain feedback descriptive of autonomous vehicle failures. In particular, the systems and methods of the present disclosure can detect that a vehicle failure event occurred at an autonomous vehicle and, in response, provide an interactive user interface that enables a human located within the autonomous vehicle to enter feedback that describes the vehicle failure event. Thus, the systems and methods of the present disclosure can actively prompt and/or enable entry of feedback in response to a particular instance of a vehicle failure event, thereby enabling improved and streamlined collection of information about autonomous vehicle failures.

Methods, apparatus, systems and articles of manufacture are disclosed for audio equalization based on variant selection. An example apparatus to equalize audio includes at least one memory, machine readable instructions, and processor circuitry to at least one of instantiate or execute the machine readable instructions to train a neural network model to apply a first audio equalization profile to first audio associated with a first variant of media, and apply a second audio equalization profile to second audio associated with a second variant of media. The processor circuitry is to at least one of instantiate or execute the machine readable instructions to at least one of dispatch or execute the neural network model.

A control device in a vehicle display system includes: a gazed image display output unit configured to display a normal gazed image in a part of each of main screen areas; a gazed image visual recognition determination unit configured to determine, based on a line-of-sight state, whether an occupant visually recognizes a normal gazed image in one of the main screen areas; and a main screen area selection unit configured to select, based on an input unit, the main screen area corresponding to the normal gazed image determined to be visually recognized by the occupant. Earlier selection display information displayed in an earlier selection main screen area selected earlier by the main screen area selection unit is displayed in a later selection main screen area selected later.