A computer-implemented method includes receiving, with a vehicle computing system, global position system (GPS) data associated with a vehicle, determining a solar position relative to the vehicle, receiving trip information associated with the vehicle, and executing one or more vehicle actuators based at least in part on the GPS data, the trip information and the solar position relative to the vehicle. Determining the solar position can include determining a sun glare period during a future time period based at least in part on the trip information associated with the vehicle. The vehicle computing system may display a warning indicative of the sun glare period, generate a window tint command that causes the window to tint and/or generate a vent control command that causes the vent to change one or more of an airflow temperature, and an airflow velocity.

A window control device includes a window regulator and a light control device. The window regulator controls movement of a light control glass that is installed in a vehicle door and a light transmittance of which can be adjusted. The light control device controls the light transmittance of the light control glass. The light control device is attached to one of the components constituting the window regulator.

A window control device includes a window regulator and a light control device. The window regulator controls movement of a light control glass that is installed in a vehicle door and a light transmittance of which can be adjusted. The light control device controls the light transmittance of the light control glass. The light control device is attached to one of the components constituting the window regulator.

New optic control systems are provided that manage user or environmental factors impacting viewing experiences. In some aspects of the invention, a variably, directionally shadable screen and actuating system is provided, which prevents and limits problematic glare for an observation point. In other aspects of the invention, a matrix of specialized pixels creates variably-directed light from a plurality of angle-directable, shiftable sources, which aids in creating virtual, 3-D objects of greater realism than conventional 3-D imaging methods and aid in reducing the appearance of distracting interceding objects (e.g., finger blocking a touch screen). In these aspects, existing images and objects viewed through a screen may be enhanced and overlaid with effects, and shifted in perspective, and demonstrative information related to images and objects and an environment. In other aspects of the invention, driving enhancement, and semi-autonomous driving systems and displays are provided.

New optic control systems are provided that manage user or environmental factors impacting viewing experiences. In some aspects of the invention, a variably, directionally shadable screen and actuating system is provided, which prevents and limits problematic glare for an observation point. In other aspects of the invention, a matrix of specialized pixels creates variably-directed light from a plurality of angle-directable, shiftable sources, which aids in creating virtual, 3-D objects of greater realism than conventional 3-D imaging methods and aid in reducing the appearance of distracting interceding objects (e.g., finger blocking a touch screen). In these aspects, existing images and objects viewed through a screen may be enhanced and overlaid with effects, and shifted in perspective, and demonstrative information related to images and objects and an environment. In other aspects of the invention, driving enhancement, and semi-autonomous driving systems and displays are provided.

Method and apparatus are disclosed for initiation of vehicle remote park-assist with key fob. An example vehicle includes a cabin, a human-machine interface (HMI) unit located in the cabin, and a receiver-transceiver module. The receiver-transceiver module is configured to receive a return signal including a distance indicator from a key fob and a remote park-assist (RePA) signal. The example vehicle also includes an autonomy unit configured to perform RePA based on the RePA signal. The example vehicle also includes a controller configured to receive, via the HMI unit, selections to activate RePA and utilize the key fob for transmitting the RePA signal and determine, based on the distance indicator, whether the key fob is in the cabin. The controller also is configured to, responsive to determining that the key fob is in the cabin, prevent the autonomy unit from performing RePA.

Method and apparatus are disclosed for initiation of vehicle remote park-assist with key fob. An example vehicle includes a cabin, a human-machine interface (HMI) unit located in the cabin, and a receiver-transceiver module. The receiver-transceiver module is configured to receive a return signal including a distance indicator from a key fob and a remote park-assist (RePA) signal. The example vehicle also includes an autonomy unit configured to perform RePA based on the RePA signal. The example vehicle also includes a controller configured to receive, via the HMI unit, selections to activate RePA and utilize the key fob for transmitting the RePA signal and determine, based on the distance indicator, whether the key fob is in the cabin. The controller also is configured to, responsive to determining that the key fob is in the cabin, prevent the autonomy unit from performing RePA.

The present disclosure provides a dimming substrate, a manufacturing method of the dimming substrate, a dimming structure and a dimming module, and relates to the technical field of display. According to the present disclosure, a bonding layer, a flexible base plate, an electrode layer and an orientation layer are sequentially arranged on a rigid carrier plate, and the bonding layer includes one or more adhesive layers. By removing flexible base films from the bonding layer, the bonding layer only includes one or more adhesive layers, such that the dimming substrate includes less flexible base films.

A composite pane includes a functional element having electrically controllable optical properties, includes an inner pane including an inner and outer side and an outer pane including an inner and outer side, a thermoplastic intermediate layer, which joins the inner side) of the inner pane to the inner side of the outer pane, a functional element embedded in the thermoplastic intermediate layer and having electrically controllable optical properties at least including a multilayer film containing, arranged surface-to-surface one above the other in this sequence, a first carrier film, a first surface electrode, an active layer, a second surface electrode, and a second carrier film. The active layer includes a matrix and an active substance, and the concentration of the active substance varies over the area of the functional element.

A composite pane includes a functional element having electrically controllable optical properties, includes an inner pane including an inner and outer side and an outer pane including an inner and outer side, a thermoplastic intermediate layer, which joins the inner side) of the inner pane to the inner side of the outer pane, a functional element embedded in the thermoplastic intermediate layer and having electrically controllable optical properties at least including a multilayer film containing, arranged surface-to-surface one above the other in this sequence, a first carrier film, a first surface electrode, an active layer, a second surface electrode, and a second carrier film. The active layer includes a matrix and an active substance, and the concentration of the active substance varies over the area of the functional element.