The disclosure relates to a hydrophobic mirror. The hydrophobic mirror includes a support, a mirror body set in the support, and a hydrophobic film located on a surface of the mirror body. The hydrophobic film comprises a flexible substrate and a hydrophobic layer located on a surface of the flexible substrate. The hydrophobic layer comprises a base and a patterned bulge layer located on a surface of the base.

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.

The invention relates to a sensor arrangement for a motor vehicle, with a pane, a sensor housing, and an optical sensor, wherein the sensor housing is arranged on one side of the pane such that between the sensor housing and the pane, a gap is formed, in which the optical sensor is arranged. To allow for a deicing of the pane in an area of the sensor housing in a particularly simple and thus cost-effective manner, it is provided that between the sensor housing and the side of the pane, a heat conducting element is arranged to conduct heat from outside the sensor housing in between the sensor housing and the pane.

An electromagnetic wave utilization system includes an electromagnetic wave device configured to send or/and receive an electromagnetic wave, and a passage part through which passes the electromagnetic wave utilized by the electromagnetic wave device. The passage part includes an inner member provided to face the electromagnetic wave device, an outer member provided on the opposite side to the electromagnetic wave device, and a heat insulating portion disposed between the inner member and the outer member so as to suppress fogging on a portion of the inner member through which the electromagnetic wave passes.

An electromagnetic wave utilization system includes an electromagnetic wave device configured to send or/and receive an electromagnetic wave, and a passage part through which passes the electromagnetic wave utilized by the electromagnetic wave device. The passage part includes an inner member provided to face the electromagnetic wave device, an outer member provided on the opposite side to the electromagnetic wave device, and a heat insulating portion disposed between the inner member and the outer member so as to suppress fogging on a portion of the inner member through which the electromagnetic wave passes.

Various embodiments relate to sensing defects associated with a window. Furthermore, various embodiments relate to performing image processing to produce a corrected image of a scene based at least partly on data corresponding to the detected defects. In some examples, one or more lighting modules may be used to illuminate the window to facilitate detection of the defects by one or more sensor devices.

Various embodiments relate to sensing defects associated with a window. Furthermore, various embodiments relate to performing image processing to produce a corrected image of a scene based at least partly on data corresponding to the detected defects. In some examples, one or more lighting modules may be used to illuminate the window to facilitate detection of the defects by one or more sensor devices.

A method for operating a motor vehicle with at least one exterior camera includes detecting whether the motor vehicle is put into operation before a driver gets into the motor vehicle, determining whether there is any contamination of the at least one exterior camera, in particular of a lens and/or a cover of the exterior camera, and outputting at least one signal in the event of certain contamination and detected start-up. A motor vehicle includes a control or regulating device designed to carry out the method.

The present disclosure relates to a portable, hand held and/or mountable control device for remote controlling at least one device provided by a vehicle. The control device comprises one or more control applications and indicator icons on a touch sensitive display and one or more motion and orientation detection sensors. The control application provided as keys on the display is selected based on user input and based on the user selected control application the device to be controlled can be controlled wirelessly by voice, steering tilt or motion based operation of the control device. Additionally, the control device can determine a fault or a correct completion of controlling by monitoring the devices. The present disclosure also provides a method for remote controlling the at least one device provided by the vehicle.

To provide a technique of eliminating condensation adhering to a vehicle inner side of the glass to improve the reliability of a vehicle-mounted optical device. A vehicle-mounted optical device includes: an imaging unit that captures an outside of a vehicle through glass mounted to the vehicle to obtain an image; a condensation detection unit that detects condensation of the glass by determining whether an image in a predetermined range of a part of the image is in a predetermined state; and a condensation removal device control processing unit that actuates a condensation removal device which removes condensation of the glass when the condensation detection unit detects the condensation.