A system and method for cleaning a sensor of a vehicle. The system includes a jet configured to eject a fluid at an alternating pulse at the sensor. The system also includes an electronic processor configured to detect that the sensor is dirty and operate the jet such that the fluid is ejected at the sensor at a predetermined pulse speed.

A system includes a computer having a processor and a memory storing instructions executable by the processor to determine a first temperature of a fluid stored by a fluid storage device and then actuate a fluid heating device to add heat energy to the fluid. The instructions include instructions to determine an amount of the heat energy added to the fluid. The instructions include instructions to determine a second temperature of the fluid stored by the fluid storage device after adding the heat energy to the fluid. The instructions include instructions to determine a quantity of the fluid stored by the fluid storage device based on the amount of the heat energy added to the fluid by the fluid heating device and a difference between the first temperature and the second temperature.

A vehicle cleaning system is provided including a foreign object detection section configured to detect a foreign object present on a windshield, a foreign object removal device configured to clean the windshield to remove the foreign object, an actuation notification section configured to notify a user of actuation of the foreign object removal device, and a control section that, when the foreign object detection section has detected the foreign object, controls the actuation notification section so as to notify of actuation of the foreign object removal device before controlling the foreign object removal device so as to clean the windshield.

Methods, devices, and systems of a light imaging and ranging system are provided. In particular, the imaging and ranging system includes a LIDAR sensor and a low-profile optics assembly having a reflective element with a continuous and uninterrupted reflective surface surrounding a periphery of a LIDAR sensor in a light path of the LIDAR sensor. The reflective element is positioned at a distance offset from the periphery of the LIDAR sensor and directs light emitted by the LIDAR sensor to a second reflective element that is substantially similar in shape and size as the reflective element. The second reflective element is arranged above and opposite the reflective element directing the light emitted by the LIDAR sensor to a sensing environment outside the imaging and ranging system.

A method for determining a cleaning strategy for cleaning a surface to be cleaned of a motor vehicle. The surface to be cleaned is selected in dependence of a cleaning mode. A sensor is operatively connected to the surface to be cleaned. The sensor exhibits an actual availability. The cleaning strategy exhibits a control quantity setpoint defining a cleaning process for the surface to be cleaned. Moreover, the method relates to a cleaning method, a use of a cleaning strategy, a cleaning system and a motor vehicle.

This technology relates to system for clearing a sensor cover. The system may include a sprayer, a support, and a positioning device. The sprayer may be mounted to the support and direct a flow of fluid to the sensor cover. The positioning device may be configured to adjust the position of the sprayer on the support. The system may include a nozzle and the nozzle may be positioned to direct the flow of fluid to an area of the sensor cover. The system may include additional sprayers.

Systems, devices, system-implemented methods, computer-implemented methods and/or computer program products are provided that can facilitate movement and/or cleaning of a sensor lens of a sensor system for a vehicle body. In one embodiment, the sensor system can comprise a sensor lens having a retractable portion that is moveable at least partially into and out of a chamber. The sensor system also can comprise a cleaning assembly configured to clean the retractable portion disposed within the chamber and at least partially separated from airflow exterior to the chamber. According to another embodiment, a sensor system for a vehicle body can comprise a moveable sensor lens, a cover, and a cleaning assembly configured to clean the sensor lens at least partially concealed by the cover from an environment about the vehicle body.

A vehicular windshield wiper control system includes a camera disposed at a vehicle and viewing through a windshield of the vehicle and an electronic control unit (ECU). Electronic circuitry of the ECU includes an image processor. The system, based on processing of image data captured by the camera, is operable to determine presence of a substance at an outer surface of the windshield. The system includes a windshield wiper having a rubber wiping blade and a cleaning element. The system is operable to (i) cause the rubber wiping blade to engage the windshield and/or (ii) cause the cleaning element to engage the windshield. Responsive to determining presence of the substance, the system causes the cleaning element to engage the windshield. With the rubber wiping blade and/or cleaning element engaging the outer surface of the windshield, the system moves the rubber wiping blade and/or cleaning element along the windshield.

The disclosure relates to a cleaning control device and cleaning control method. Specifically, according to the disclosure, a cleaning control device may comprise a shield divided into a plurality of regions, a moving actuator moving the shield, a sensor detecting an object by transmitting and receiving a detection signal through some regions of the plurality of regions of the shield, and a controller generating and outputting a cleaning control signal to spray a cleaning liquid to a signal transmission region placed side-by-side with the sensor among the plurality of regions if a foreign body is present in the signal transmission region and generating and outputting a moving control signal to move a signal non-transmission region placed non-side-by-side with the sensor among the plurality of regions to a position of the signal transmission region.

A system includes a processor and a memory storing instructions executable by the processor to actuate a component upon determining that a hydrophobic coating of a surface is degraded based on a comparison of a characteristic of a liquid droplet with a threshold value.