A window glass heating device for a vehicle is provided with: a window heater; a window heater control unit that controls operation of the window heater based on an operation on an operation switch; a camera heater; and a camera heater control unit that controls supply of power to the camera heater to defog the camera-imaging window area. The camera heater control unit is configured to acquire window heater operation information which is operation information on operation of the window heater and to limit supply of power to the camera heater when it is estimated that the camera heater is potentially overheated by heat applied from the window heater to the camera heater based on the window heater operation information.

A heating plate 10 includes: a pair of glass plates 11, 12; a conductive pattern 40, 70 disposed between the pair of glass plates 11, 12 and defining a plurality of opening areas 43, 73; and a joint layer 13, 14 disposed between the conductive pattern 40, 70 and at least one of the pair of glass plates 11, 12; wherein the conductive pattern 40, 70 includes a plurality of connection elements 44, 74 that extend between two branch points 42, 72 to define the opening areas 43, 73; and a total value of lengths of straight line segments connecting the two branch points 42, 72 is less than 20% of a total value of the plurality of connection elements 44, 74.

A method of controlling a heating element in thermal communication with a rear window of a vehicle comprises: with a vehicle being in an external environment and comprising a rear window and a heating element in thermal communication with the rear window, a controller in communication with the heating element, the controller including a Pre-established Predictive Activation Model setting forth rules governing activation of the heating element as a function of data relating to Certain Identifiable Conditions, and a user interface configured to allow the heating element to be manually activated or deactivated; collecting data relating to the Certain Identifiable Conditions; determining, by comparing the collected data to the rules of the Pre-established Predictive Activation Model, whether the collected data satisfies the rules of the Pre-established Predictive Activation Model so as to initially automatically activate the heating element; and automatically activating the heating element.

A camera lens includes a cover adapted to at least partially enclose at least one camera having at least one camera lens, drive means adapted to rotationally move the cover relative to the camera, and a housing adapted to hold the cover and the drive means, where the housing at least partially encloses the cover and includes at least one opening for allowing electromagnetic radiation to pass through the cover to the lens. A rear view display for a vehicle includes such a cleaning system, and a vehicle includes such a rear view display.

A vehicle includes a rear window having hydrophobic portion, and a non-hydrophobic portion below the hydrophobic portion. A rear wiper system is mounted adjacent to a top of the rear window and includes a pivotable nozzle and a blower to direct an airstream through the nozzle onto the rear window.

A vehicular pillar structure including: a first front pillar garnish, a first pillar being extended substantially along a vehicle vertical direction; a second front pillar garnish and a second pillar being extended substantially along the vehicle vertical direction, a transparent member that is bridged between the first pillar and the second pillar; an extended portion that is provided on the vehicle interior side and on a vehicle upper side of the transparent member, is formed in a plate shape whose plate thickness direction is a substantially vehicle width direction, and is extended from an upper end portion of the second front pillar garnish to an upper end portion of the first front pillar garnish; and an upper lid member provided to cover a space between a lower end portion of the extended portion and the transparent member, and is configured as a separate body from the second front pillar garnish.

A plate for an electro-thermal window includes a heatable transparent conductive film, and bus bars that feed power to the transparent conductive film. The bus bars include a left bus bar connected to a left side edge and a right bus bar connected to a right side edge of the transparent conductive film. The transparent conductive film is divided into regions by a slit continuously or discontinuously formed from the left bus bar to the right bus bar. The regions include first and second regions. A distance between the left bus bar and the right bus bar of the first region is shorter than a distance between the left bus bar and the right bus bar of the second region. A width of the first region in a direction orthogonal to the slit is shorter than a width of the second region in the direction.

A vehicle includes a rear window having hydrophobic portion, and a non-hydrophobic portion below the hydrophobic portion. A rear wiper system is mounted adjacent to a top of the rear window and includes a pivotable nozzle and a blower to direct an airstream through the nozzle onto the rear window.

A planar heating structure is disclosed. The planar heating structure includes a glass substrate layer, a nanometallic transparent conductive layer, and a first passivation layer. The nanometallic transparent conductive layer is disposed on the glass substrate layer and receives a voltage to generate heat energy. The first passivation layer is disposed on the nanometallic transparent conductive layer and completely covers the nanometallic transparent conductive layer.

A window glass heating device for a vehicle is provided with a window heater configured to heat a whole area of a window glass, a window heater control unit configured to control the window heater, a camera heater that is an electric heater which heats a camera-imaging window area which is a part of the window glass included in an imaging area of a camera that images a vehicle exterior from a vehicle interior via the window glass, and a camera heater control unit configured to control supply of power to the camera heater. The camera heater control unit is configured to acquire window heater operation information, acquire a temperature of the camera heater, and control supply of power to the camera heater such that the temperature of the camera heater is within a predetermined temperature range based on the window heater operation information.