An apparatus on a vehicle comprises one or more sensors, one or more nozzles that output fluid to clean the respective one or more sensors, and a compressor that generates fluid such as compressed air. The compressor is in fluid communication with the one or more nozzles. The apparatus further comprises one or more processors, and a memory storing instructions that, when executed by the one or more processors, cause the system to predict a trajectory of the vehicle and control an operation of the compressor based on the predicted trajectory of the vehicle.

In a vehicle control system that controls a vehicle that performs autonomous driving, the vehicle control system includes an autonomous driving control device that generates a target trajectory for autonomous driving of the vehicle, and an vehicle travel control device that executes vehicle travel control that controls steering, acceleration, and deceleration of the vehicle such that the vehicle follows the target trajectory. The vehicle travel control device is configured to determine whether an operation request condition for washer operation for ejecting washer solution toward a windshield of the vehicle is satisfied, transmit an approval request for the washer operation to the autonomous driving control device when the operation request condition is satisfied, and execute the washer operation when approval for the approval request is received from the autonomous driving control device.

An adhering substance removing device is configured to remove adhering substances on an exterior member of a vehicle body. The device includes a vibration generator and a vibration transmitting member. The vibration generator is configured to generate vibrations. The vibration transmitting member includes a first surface and a second surface. The first surface faces the exterior member. The second surface is inclined with an acute angle relative to the first surface. The vibration generator is mounted on the second surface. The vibration transmitting member is softer than the exterior member. The vibration transmitting member is configured to generate surface waves that advance in a predetermined direction in the exterior member.

Disclosed is an apparatus for cleaning an object detecting sensor including a driving environment acquirer that acquires driving environment information of a vehicle, a cleaning nozzle that ejects a washing liquid for cleaning the object detecting sensor according to an operation period thereof that is set based on the driving environment information, and a controller that calculates a driving state score of the vehicle based on the driving environment information and set the operation period of the cleaning nozzle based on the driving state score.

A vehicle cleaner system includes: a cleaner unit configured to be mounted on a vehicle and to discharge a cleaning liquid to an external sensor that acquires information outside the vehicle so as to clean the external sensor; and a cleaner control unit configured to control the cleaner unit. The cleaner control unit is configured to acquire vehicle speed information related to a traveling speed of the vehicle, and control the cleaner unit such that at least one of a discharge amount of the cleaning liquid, a discharge amount of the cleaning liquid per unit time, the number of times of discharge of the cleaning liquid, the number of times of discharge of the cleaning liquid per unit time, and a discharge time of the cleaning liquid varies according to the vehicle speed information.

Systems and methods are directed to obtaining autonomous vehicle sensor data of an autonomous vehicle. In these system and methods that include determining a direction of motion of a vehicle based on a predicted navigational position of the vehicle, determining, based at least in part on the predicted navigational position, a change in a future light positional information that may be received by one or more sensors compared to a current light positional information being received by the one or more sensors and cleaning the one or more sensors of the vehicle prior to the change in the future light positional information and prior to the vehicle reaching the predicted navigational position.

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.

A cleaning apparatus for cleaning at least one viewing area of a motor vehicle, the cleaning apparatus may have at least one cleaning nozzle and an evaluation and control apparatus. The evaluation and control apparatus is configured to receive at least one sensor signal which comprises at least one piece of information on a motor vehicle environment condition and/or a motor vehicle parameter, to evaluate this information in order to determine an operation situation in this manner, to select a predetermined cleaning profile from a plurality of predefined cleaning profiles based on this information, and to control the at least one cleaning nozzle depending on the selected cleaning profile in order to clean the at least one viewing area.

A system for cleaning sensors of a vehicle includes at least one cleaning apparatus which is configured to clean a number of sensors of a vehicle and a control apparatus which is configured to control the at least one cleaning apparatus. The control apparatus is also configured so as, on the basis of at least one situation parameter, to select a plurality of sensors which are intended to be cleaned from the number of sensors and to determine the order in which the selected plurality of sensors are intended to be cleaned.

A device for dispensing liquid onto a target area of a vehicle surface is described, and includes a mixing valve that is in communication with a pressurized fluidic supply system via a fluidic distribution system, and a controller. The mixing valve includes an outlet orifice that is disposed proximal to the target area, and the mixing valve includes first and second valve conduits that are fluidly connected to the outlet orifice via a mixing portion. The first valve conduit includes a first control valve, and the second valve conduit includes a second control valve. The fluidic distribution system includes a first fluidic conduit and a second fluidic conduit. The controller is operatively connected to the fluidic supply system, and the first and second control valves.