In the cabin of an automatic driving vehicle, a touch panel for inputting a control instruction in relation to the automatic driving vehicle and a display for displaying information on the automatic driving vehicle are provided. The touch panel and the display are disposed in the front end area in the end area in the vehicle width direction inside the cabin of the automatic driving vehicle such that their display surfaces are directed rearward. The touch panel is disposed further outward in the vehicle width direction than the display.

An on-vehicle sensor cleaning device includes a cleaning actuator that cleans a cleaning object surface an on-vehicle sensor, the cleaning object surface being cleaned by operating the actuator; and a controller that drives the cleaning actuator when fouling degree information of the cleaning object surface reaches a fouling threshold. The controller is configured to change the fouling threshold depending on a vehicle speed information.

An outside viewing device for a vehicle, having a camera that is housed in a casing having a frontal wall through which there passes an imaging window, and an internal partition which is parallel to the frontal wall and through which there passes an opening next to the imaging window. In addition, two peripheral wiper seals, disposed at the periphery of the window and the opening, delimit a guide in which a transparent screen slides, in a sealed manner, between at least two imaging positions, in each of which different surface portions of the screen are positioned next to the imaging window. Finally, a device for moving the screen is designed to slide the latter between its different positions.

A device for converting a rotational motion into a reciprocating angular motion and a wiper system including the same include a fixed body fixed to a certain object; a rotating body rotatably connected to the fixed body and rotating around a fixed axis; and a torsion spring coupled to the fixed axis and having an end portion and an opposite end portion, the end portion being held by the fixed body and the opposite end portion being held by the rotating body.

A device for converting a rotational motion into a reciprocating angular motion and a wiper system including the same include a fixed body fixed to a certain object; a rotating body rotatably connected to the fixed body and rotating around a fixed axis; and a torsion spring coupled to the fixed axis and having an end portion and an opposite end portion, the end portion being held by the fixed body and the opposite end portion being held by the rotating body.

A windshield wiper assembly includes a wiper blade, an output shaft, and a stop member. The output shaft is supported for rotation about a rotation axis and is fixed in rotation relative to the output shaft. The stop member is fixed in rotation relative to the output shaft and extends radially from the output shaft to limit rotation of the output shaft about the rotation axis, the stop member thereby limiting movement of the wiper blade beyond a predetermined sweep range of the wiper blade. Windshield wiper systems, aircraft with windshield wiper assemblies and systems, and methods of controlling sweep of wiper blades in windshield wiper assemblies and systems are also described.

A windshield wiper assembly includes a wiper blade, an output shaft, and a stop member. The output shaft is supported for rotation about a rotation axis and is fixed in rotation relative to the output shaft. The stop member is fixed in rotation relative to the output shaft and extends radially from the output shaft to limit rotation of the output shaft about the rotation axis, the stop member thereby limiting movement of the wiper blade beyond a predetermined sweep range of the wiper blade. Windshield wiper systems, aircraft with windshield wiper assemblies and systems, and methods of controlling sweep of wiper blades in windshield wiper assemblies and systems are also described.

A wiper device including a wiper motor that includes a rotor and a coil to generate a rotating magnetic field, and that causes a wiper blade to perform a wiping operation by rotating the rotor according to the rotating magnetic field, a drive section that drives rotation of the wiper motor by performing current switch-on in the coil so as to generate the rotating magnetic field, and a controller that controls the drive section by a timing for current switch-on in the coil based on at least a rotation position of the rotor.

A wiper device including a wiper motor that includes a rotor and a coil to generate a rotating magnetic field, and that causes a wiper blade to perform a wiping operation by rotating the rotor according to the rotating magnetic field, a drive section that drives rotation of the wiper motor by performing current switch-on in the coil so as to generate the rotating magnetic field, and a controller that controls the drive section by a timing for current switch-on in the coil based on at least a rotation position of the rotor.

Provided are embodiments for a system having an avionics system that is configured to dynamically communicate one or more configurable parameters of a wiper and wash system based at least in part on a selected mode, and an avionics bus that is configured to communicate dynamic parameters from the avionics system. The system also includes a wash system having a fluid reservoir and fluid level sensor, and a wiper system including a control unit (ECU) that is configured to operate the system based at least in part on the one or more configurable parameters, wherein the wiper system is coupled to the wash system and supplies the wash fluid to the wiper system. Also provided are embodiments of a method for performing dynamic control of the aircraft windscreen wiper and wash system configuration parameters.