A method includes: predicting, by a computer device, a time a user will start driving a vehicle; determining, by the computer device, freezing conditions; determining, by the computer device, a time to start a deicing system of the vehicle based on the predicted time and the determined freezing conditions; and generating, by the computer device, an output to start the deicing system at the determined time. A system includes: a windshield wiper that is selectively driven by a windshield wiper motor; a wiper sensor configured to detect an amount of deflection of the windshield wiper from a baseline position; and a computer operatively connected to the windshield wiper motor and the wiper sensor, the computer being configured to: actuate the windshield wiper motor; receive data from the wiper sensor while the windshield wiper motor is actuated; and determine a thickness of ice on a windshield based on the received data.

Systems, methods, and storage media for controlling wiper devices of a vehicle are disclosed. Exemplary implementations may: remove, by one or more wiper devices, fluid or debris from viewing portals; generate output signals conveying passenger sensor information related to passenger actions; generate output signals conveying vehicle sensor information related to vehicle operations; determine, based on the output signal, the passenger sensor information; determine, based on the output signal, the vehicle sensor information; assess, based on the passenger sensor information or the vehicle sensor information, readiness of a passenger to depart the vehicle via an exit; and control, based on the readiness of the passenger to depart the vehicle via the exit, the one or more wiper devices.

A vehicle includes a wiper switch that manually operates a wiping mode of a windshield wiper. The vehicle control system includes a first controller configured to execute an automated driving of the vehicle, and a second controller configured to control the wiping mode of the windshield wiper based on a request from the first controller or operation information of the wiper switch. The first controller transmits an auto-wiper request to the second controller during execution of the automated driving. Here, the auto-wiper request is a request for executing an auto-wiper process for automatically switching the wiping mode of the windshield wiper according to an external environment. The second controller executes the auto-wiper process when the auto-wiper request is received from the first controller in a state where the wiper switch is operated to the wiper-off position.

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.

A product [11] includes a foldable clamshell-type housing [10] folded to a closed position to contain a pre-formed sensor pad [17] that was formed in situ therein when the housing [10] was in an open position, prior to closing. The housing [10] has an enclosed volume [12] bounded by relatively thin and flexible walls [23, 34], and outwardly extending tabs [18] which facilitate opening. This structure enables the user to easily open the housing [10] to remove the sensor pad [17], a cured silicone composition, by pushing inward on an outer surface of the outer wall [34] of a base section [15] of the housing [10]. This product [11] reduces the amount of manipulation needed to place the sensor pad [17] in a desired position, for example, during installation of a rain sensor system for a vehicle windshield.

A system mounted on a vehicle for detecting an obstruction on a surface of a window of the vehicle, a primary camera is mounted inside the vehicle behind the window. The primary camera is configured to acquire images of the environment through the window. A secondary camera is focused on an external surface of the window, and operates to image the obstruction. A portion of the window, i.e. window region is subtended respectively by the field of view of the primary camera and the field of view of the secondary camera. A processor processes respective sequences of image data from both the primary camera and the secondary camera.

The disclosure provides for a wiper system for cleaning a surface of a sensor housing, such as a sensor housing positioned on top of a vehicle. The wiper system includes a plurality of windows spaced around a sensor housing, and a plurality of wipers positioned around the sensor housing, each of the wipers includes a wiper blade configured to clean a corresponding window of the plurality of windows. The wiper system further includes a drive system including a movable part coupled to a motor. The motor is configured to drive the drive system to simultaneously rotate the plurality of wipers around the sensor housing such that the plurality of wipers remove debris from the plurality of windows.

Sensor cleaning apparatus, systems, and related methods for use with vehicles are disclosed. A disclosed apparatus includes a sensor of a vehicle. The apparatus also includes a motor operatively coupled to the sensor to enable the sensor to move within a cavity of the vehicle. The apparatus also includes a wiper fixedly coupled to the vehicle and partially defining the cavity. An edge of the wiper is to engage the sensor when the sensor moves to remove debris.

In a sensor arrangement for measurement of the temperature of a disk, it is provided that the sensor arrangement comprises a circuit carrier with a temperature sensor arranged thereon, wherein the circuit carrier and the temperature sensor are arranged in a housing and an electrical connection and a heat-conducting element are guided out from the housing, the heat-conducting element is configured as a rigid pin, the rigid pin has a thermal connection and a mechanical connection to the circuit carrier, the rigid pin is provided and configured to make a thermal contact with the disk.

A sensor cleaning system for a vehicle is disclosed that includes a sensor assembly. The sensor assembly may include a fluid-dispensing nozzle for a vehicle sensor, a housing within a body of a vehicle, and a driving member which can move the nozzle between a stowed position within the housing and a deployed position.