A method of making a mirror substrate for a vehicular rearview mirror assembly includes providing a glass substrate having a planar front surface, a planar rear surface and a circumferential perimeter edge. The glass substrate is positioned at a fixture and the front perimeter edge portion of the glass substrate is ground by moving a grinding wheel around the periphery of the glass substrate to establish a rounded surface about and around the periphery of the glass substrate and between the planar front surface and a rear portion of the perimeter edge of the glass substrate. The rounded surface has a radius of curvature of at least 2.5 mm. The rounded surface provides a curved transition between the planar front surface of the glass substrate and the rear portion of the perimeter edge of the glass substrate. The planar rear surface of the glass substrate is coated with a coating.

A vehicular driver monitoring system includes an interior rearview mirror assembly having a driver monitoring camera and first and second near-infrared light emitting elements accommodated by a mirror head. The light emitting elements are oriented at the mirror head so that (i) a beam of light emitted by the first light emitting element would be directed toward a driver's region of a left hand drive vehicle if the mirror assembly were installed in the LHD vehicle, and (ii) a beam of light emitted by the second light emitting element would be directed toward a driver's region of a right hand drive vehicle if the mirror assembly were installed in the RHD vehicle. The system enables and/or operates the first or second light emitting element for a driver monitoring function responsive to indication that the mirror assembly is installed or will be installed in a LHD vehicle or a RHD vehicle.

A vehicular driver monitoring system includes an interior rearview mirror assembly having a driver monitoring camera and first and second near-infrared light emitting elements accommodated by a mirror head. The light emitting elements are oriented at the mirror head so that (i) a beam of light emitted by the first light emitting element would be directed toward a driver's region of a left hand drive vehicle if the mirror assembly were installed in the LHD vehicle, and (ii) a beam of light emitted by the second light emitting element would be directed toward a driver's region of a right hand drive vehicle if the mirror assembly were installed in the RHD vehicle. The system enables and/or operates the first or second light emitting element for a driver monitoring function responsive to indication that the mirror assembly is installed or will be installed in a LHD vehicle or a RHD vehicle.

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.

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.

A mounting apparatus for attaching a rearview assembly to a windshield may comprise a wedge; a mount configured to support the rearview assembly, the mount in contact with the wedge on at least one surface; and a spring comprising two legs with bent surfaces and configured to deflect outward from one another upon installation and having a lobe at the end of each leg, the spring configured to secure the mount to the wedge. The wedge may be configured to support the spring.

A mounting apparatus for attaching a rearview assembly to a windshield may comprise a wedge; a mount configured to support the rearview assembly, the mount in contact with the wedge on at least one surface; and a spring comprising two legs with bent surfaces and configured to deflect outward from one another upon installation and having a lobe at the end of each leg, the spring configured to secure the mount to the wedge. The wedge may be configured to support the spring.

Disclosed herein are accessory devices and systems for vehicles including: a base plate assembly comprising a base plate and an articulating bracket, the base plate configured to be fixedly secured to a portion of a vehicle and the articulating bracket configured to be releasably secured to the vehicle using the base plate at a plurality of locations; and at least one auxiliary visor panel or accessory connected to the base plate assembly. Also disclosed herein are method of using the disclosed devices and systems for interchangeably moving the base plate assembly with connected auxiliary visor panel or accessory between vehicles.

Disclosed herein are accessory devices and systems for vehicles including: a base plate assembly comprising a base plate and an articulating bracket, the base plate configured to be fixedly secured to a portion of a vehicle and the articulating bracket configured to be releasably secured to the vehicle using the base plate at a plurality of locations; and at least one auxiliary visor panel or accessory connected to the base plate assembly. Also disclosed herein are method of using the disclosed devices and systems for interchangeably moving the base plate assembly with connected auxiliary visor panel or accessory between vehicles.

A device for displaying lateral rear images of a vehicle using a room mirror for a vehicle, includes: a smart room mirror 10 equipped with a camera sensor 11 for recognizing a driver's gesture and a motion sensor 12 for recognizing a driver's 3D gesture; camera modules 310, 410 for capturing vehicle lateral rear images, installed in left and right side-view mirrors 30, 40 of a vehicle 20; and a central processing device 60 for controlling to store, compare and analyze image information from the camera modules 310, 410 installed in the left and right side-view mirrors 30, 40, respectively, and image information from the camera sensor 11 and the motion sensor 12 of the smart room mirror 10, the central processing device 60 controlling to access a black box 50 and a communication module 51 and receive images stored in the black box 50.