Examples of the present disclosure relate to techniques for headlamp heater control. In examples, a headlight assembly comprises a heater, which is used to prevent or remove condensation/precipitation on a lens of the headlamp assembly. Given it may be difficult for an individual to know when to manually turn the headlamp heater on, an electronic control unit (ECU) may evaluate a set of rules to determine when to automatically enable or disable the headlamp heater. The rules may be associated with atmospheric conditions outside the vehicle, the state of the vehicle (e.g., whether windshield wipers are turned on, whether windshield defog is enabled, whether a mirror heater is turned on, etc.), and/or user input received by an ECU of the vehicle, among other examples.

The disclosure describes systems and methods for controlling a heating element of a window of a vehicle. The systems and methods include capturing an image of the window with a camera of the vehicle. The image is analyzed to determine a state of the window and the heating element is controlled based on the state of the window.

A computer includes a processor and a memory, the memory storing instructions executable by the processor to, heat a passenger cabin of a vehicle, actuate a thermal sensor to collect temperature data in the passenger cabin, identify a surface in the passenger cabin that has a temperature below a temperature threshold, and actuate one or more components to sanitize the identified surface.

A computer includes a processor and a memory, the memory storing instructions executable by the processor to, heat a passenger cabin of a vehicle, actuate a thermal sensor to collect temperature data in the passenger cabin, identify a surface in the passenger cabin that has a temperature below a temperature threshold, and actuate one or more components to sanitize the identified surface.

Method of detecting and overcoming degradation of image quality during a weather event and activation of windshield wipers. The method takes a high-contrast region of interest (ROI) of an image captured by a camera of a vehicle vision system, applies a Laplacian Operator that focuses on the pixel level in the ROI, and calculates a variance of the Laplacian. Images having an ROI below a predetermined variance threshold are classified or flagged as a low-quality image. Once a low-quality image is flagged, the camera settings can be readjusted in a feedback loop to compensate for the loss in quality of the captured image. This method may be stored as a software routine and implemented by a vision control module of the vision system.

A patterned conductor that includes a metal linear conductor positioned on one placement surface that has a main cut surface orthogonal to its longitudinal direction, a plurality of metal crystal grains. In the main cut surface of thereof, a metal crystal grain(s) having a length h.sub.0 along a normal direction to the placement surface, which length is larger than one third of a height H of the linear conductor along the normal direction to the placement surface. A minimum value of a ratio (h.sub.0/w.sub.0), which is a ratio of the length h.sub.0 of the metal crystal grain(s) along the normal direction to the placement surface with respect to a length w.sub.0 along the placement surface, is not less than 1.2.

A patterned conductor that includes a metal linear conductor positioned on one placement surface that has a main cut surface orthogonal to its longitudinal direction, a plurality of metal crystal grains. In the main cut surface of thereof, a metal crystal grain(s) having a length h.sub.0 along a normal direction to the placement surface, which length is larger than one third of a height H of the linear conductor along the normal direction to the placement surface. A minimum value of a ratio (h.sub.0/w.sub.0), which is a ratio of the length h.sub.0 of the metal crystal grain(s) along the normal direction to the placement surface with respect to a length w.sub.0 along the placement surface, is not less than 1.2.

A heating plate includes: a pair of glass plates; a conductive pattern disposed between the pair of glass plates and defining a plurality of opening areas; and a joint layer disposed between the conductive pattern and at least one of the pair of glass plates; wherein the conductive pattern includes a plurality of connection elements that extend between two branch points to define the opening areas; and a rate of the connection elements, which are straight line segments connecting the two branch points, relative to the plurality of connection elements, is less than 20%.

A low-profile ventilation system is provided for a motor vehicle. That low-profile ventilation system includes an inlet duct having an inlet-free top wall, a sidewall and a bottom wall. A recirculating air inlet is provided in the sidewall. A fresh air inlet is also provided in the sidewall. A related method of providing a low-profile ventilation system is also provided. The method includes providing an inlet duct with an inlet-free top wall and both a fresh air inlet and a recirculating air inlet, wherein the recirculating air inlet has first and second laterally opposing openings in a sidewall of the inlet duct.

An apparatus and method for melting snow and/or ice on a vehicle comprises a precipitation sensor, a surface temperature sensor, an ambient temperature sensor, a heater, and a programmable controller. The programmable controller comprises a memory unit to store a cut off surface temperature Tc, and a set of program modules. The programmable controller further comprises a processor to execute the set of program modules. A heater control module, executed by the processor, is configured to deactivate a heater based on a surface temperature being greater than the cut off surface temperature. Further, heater control module is configured to activate the heater based on an ambient temperature being lower than freezing point of water and precipitation being present outside the vehicle, thereby melting snow and/or ice on the vehicle. The snow melts off because of heat generated by the heater upon activation.