A system includes a dome, a wiper assembly, a position sensor and a control device. The wiper assembly includes a wiper blade configured to rotate around the dome. The position sensor may be configured to send a signal to a control device when a wiper blade passes the position sensor. The control device may include one or more processors configured to receive the signal from the position sensor and determine a location of the wiper blade relative to the dome based on the received signal.

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.

An embodiment vehicle includes a rain sensor configured to generate a splash signal in response to detecting rain greater than or equal to a predetermined amount, a wiper driver configured to operate a wiper based on the splash signal, a first controller configured to transmit the splash signal to the wiper driver, and a second controller configured to receive the splash signal from the first controller, generate a control signal based on the splash signal, and operate at least one electronic device based on the control signal.

A control system can include an actuator actuable into an on state to instruct a wiper motor to move a wiper over a vehicle exterior surface, and a source of vehicle movement data that indicates whether the vehicle is moving. A processor based controller can instruct the wiper motor to move the wiper to either a Park 1 position that provides enhanced aerodynamic effects or a different Park 2 position that provides enhanced accessibility to the wiper if the actuator is not actuated into the on state. The controller being specifically configured to instruct the wiper motor to move the wiper to the Park 1 position if the source of vehicle information indicates that the vehicle is moving, and to instruct the wiper motor to move the wiper to the Park 2 position if the source of vehicle information does not indicate that the vehicle is moving.

A wheeled vehicle includes a rear opening that is formed in a rear surface of a vehicle body, a tailgate that is provided to open and close the rear opening, a sub door opening that is formed in a transverse portion of the tailgate, and a sub door that is provided to open and close the sub door opening. In the tailgate, a tailgate side window panel is provided on the tailgate, and a sub door side window panel is provided on the sub door. These tailgate side window panel and the sub door side window panel are made substantially level with each other while being disposed continuously in a transverse direction. The control unit prohibits the operation of a wiper device that moves over the individual window panels so as to clean and remove water therefrom, with the sub door left open.

The invention proposes an autonomous device for controlling a heating circuit of an automotive vehicle windscreen wiper blade, comprising a module for regulating the electrical power supply of the heating circuit, furnished with an input for connecting to an electrical energy generator and with an output for connecting to a said windscreen wiper blade heating circuit. This device comprises means for acquiring, at an instant t, a datum representative of a temperature outside the vehicle on the one hand and of a datum representative of the instantaneous speed of the vehicle on the other hand, the said acquiring means being configured to transmit these data to the regulating module.

A device and a method for controlling a wiper of a vehicle. The device may include a wiper actuator for driving the wiper of the vehicle, a sensor for measuring a driving speed of the wiper, and a controller that controls the wiper of the vehicle based on a relationship between a driving voltage applied to the wiper actuator and the driving speed measured by the sensor.

Methods and apparatus for relay aided beam management in a vehicle communication system are provided. The relay comprises an antenna system including an internal antenna located inside a vehicle and an external antenna located outside the vehicle. The relay further comprises a transceiver operably connected to the antenna system, the transceiver configured to receive, from a base station (BS), a first signal via the external antenna of the antenna system, and receive, from the vehicle, configuration information including at least one of a vehicle speed, or a position of a window of the vehicle or windshield wiper. The relay further comprises a processor operably connected to the antenna system and the transceiver, the processor configured to generate a second signal based on (i) the configuration information and (ii) the first signal, wherein the transceiver is further configured to transmit, to a user equipment (UE), the second signal via the internal antenna.

This application provides an automatic vehicle window cleaning method and apparatus, used to detect a foreign object on a vehicle window based on a value of a pixel in a vehicle window image, and perform automatic cleaning. The method includes: obtaining a vehicle window image; determining a dark channel image corresponding to a single frame of vehicle window image; further determining, based on a quantity of pixels whose gray values exceed a preset gray threshold in the dark channel image and/or definition of the dark channel image, that a first-type foreign object exists on a vehicle window; and/or determining, based on RGB values of pixels in i consecutive frames of vehicle window images, that a second-type foreign object exists on the vehicle window; and controlling a cleaning tool to remove a foreign object. The foreign object includes the first-type foreign object and/or the second-type foreign object.

A vehicle recognition device includes a vehicle recognizer and a wiper controller. The vehicle recognizer is configured to determine, upon a first state, whether a transition is made from the first state to a second state. The first state is a state in which a second vehicle is recognizable from captured images obtained from respective cameras provided in a first vehicle. The second state is a state in which the second vehicle is unrecognizable from one or more of the captured images. The one or more of the captured images is obtained from all or a part of the cameras. The wiper controller is configured to automatically control an operation of a wiper of the first vehicle on the basis of an automatic control, when the vehicle recognizer determines that the transition is made from the first state to the second state.