The disclosure provides a vehicle alert device, a vehicle alert method and a computer-readable recording medium. The vehicle alert device includes: a detection portion for detecting an alert target vehicle among road participants around the present vehicle to obtain a detection result; an information display portion, which is disposed on a pair of rearview mirrors of the present vehicle; a control portion, which controls the information display portion to display a predetermined pattern on the information display portion when it is determined based on the detection result that the driver can see the alert target vehicle, so that the predetermined pattern is superimposed on the alert target vehicle displayed on the pair of rearview mirrors.

The disclosure provides a vehicle alert device, a vehicle alert method and a computer-readable recording medium. The vehicle alert device includes: a detection portion for detecting an alert target vehicle among road participants around the present vehicle to obtain a detection result; an information display portion, which is disposed on a pair of rearview mirrors of the present vehicle; a control portion, which controls the information display portion to display a predetermined pattern on the information display portion when it is determined based on the detection result that the driver can see the alert target vehicle, so that the predetermined pattern is superimposed on the alert target vehicle displayed on the pair of rearview mirrors.

A rear-view mirror includes an electrochromic film, a first glass layer, a second glass layer, a first transparent adhesive layer, a second transparent adhesive layer and a sealing structure layer. The first glass layer and the second glass layer are located on two faces of the electrochromic film respectively, the first transparent adhesive layer is located between the first glass layer and the electrochromic film, the second transparent adhesive layer is located between the second glass layer and the electrochromic film, the sealing structure layer is located on edges of the first glass layer and the second glass layer, the sealing structure layer, the first glass layer and the second glass layer form a sealing structure, and the electrochromic film is sealed in the sealing structure.

A vehicular rearview mirror control system includes a plurality of rearview mirror assemblies having variable reflectance mirror reflective elements. An electronic control unit receives image data captured by a rear backup camera of the vehicle. The rearview mirror control system, responsive to processing a first subset of received image data captured by the rear backup camera, determines ambient light rearward of the vehicle. The rearview mirror control system, responsive to processing a second subset of received image data captured by the rear backup camera, determines glare light emanating from a headlight of another vehicle following the equipped vehicle. The first subset of received image data is different than the second subset of received image data. The rearview mirror control system generates an output to control dimming of respective ones of the mirror reflective elements of the plurality of rearview mirror assemblies based on location of the determined glare light.

Provided is an input unit to which input signals are inputted, the input signals including signals indicating operating states of switches used for operating the electronic mirror and used for selecting a display mode from among the plurality of display modes to be displayed by the electronic mirror; a storage unit that together with prioritizing and storing each of a plurality of display modes in a hierarchical structure, stores mode setting conditions that are conditions for setting each display mode; a determination unit for determining whether or not the mode setting conditions are satisfied for each of the plurality of display modes based on the input signals; and a setting unit that, of the plurality of display modes, sets a display mode from among the display modes for which the mode setting conditions are satisfied, as a display mode to be displayed on the electronic mirror.

Provided is an input unit to which input signals are inputted, the input signals including signals indicating operating states of switches used for operating the electronic mirror and used for selecting a display mode from among the plurality of display modes to be displayed by the electronic mirror; a storage unit that together with prioritizing and storing each of a plurality of display modes in a hierarchical structure, stores mode setting conditions that are conditions for setting each display mode; a determination unit for determining whether or not the mode setting conditions are satisfied for each of the plurality of display modes based on the input signals; and a setting unit that, of the plurality of display modes, sets a display mode from among the display modes for which the mode setting conditions are satisfied, as a display mode to be displayed on the electronic mirror.

A system is provided that includes a housing [102], a display [100] attached to the housing [102], and a camera [104] attached to the housing located proximate the display [100], the camera [104] being configured to capture images over a 360-degree field of view in at least a first plane [110] through the housing and capture images over a 220-degree field of view in a second plane [112] perpendicular to the first plane [110].

A system is provided that includes a housing [102], a display [100] attached to the housing [102], and a camera [104] attached to the housing located proximate the display [100], the camera [104] being configured to capture images over a 360-degree field of view in at least a first plane [110] through the housing and capture images over a 220-degree field of view in a second plane [112] perpendicular to the first plane [110].

A rearview mirror assembly includes a mirror element including a first substrate having a first surface and a second surface. A reflector is disposed adjacent to one of the first and second surfaces. The rearview mirror assembly further includes a lighting subassembly includes a light source and a diffuser. The light source is operable to project light through the mirror element. The diffuser is disposed between the light source and the mirror element. The light source comprises a plurality of micro light-emitting diodes arranged in a light shape representing a display icon such that the display icon is projected through the mirror element without any influence on the shape caused by any other component of the mirror element.

An apparatus may include a first emitter and a second emitter. The first emitter may be configured to emit visible light comprising first heads up display information to be displayed to a driver of a vehicle. The second emitter may be configured to emit infrared light comprising second heads up display information to be displayed to one or more rear seat passengers of the vehicle.