A vehicular vision system includes an interior rearview mirror assembly having a mirror head adjustable about a mounting base configured to attach at an interior portion of a vehicle. A driver monitoring camera is accommodated by the mirror head and moves in tandem with the mirror head when the mirror head is adjusted relative to the mounting base to adjust a driver's rearward view. At least one near infrared light emitter is accommodated by the mirror head and is operable to emit near infrared light toward a head region of the driver of the vehicle. Image data captured by the driver monitoring camera is processed to determine driver attentiveness and/or driver drowsiness. The vehicular vision system may adjust processing of the captured image data to accommodate adjustment of the mirror head when the driver adjusts the mirror head to adjust his or her rearward view.

An automatic mirror adjustment arrangement for a motor vehicle includes a sensor detecting a height of eyes of a driver of the motor vehicle. An electronic processor is communicatively coupled to the sensor and determines a desired orientation of a mirror within the motor vehicle based upon the detected height of the eyes of the driver. The processor transmits a control signal dependent upon the determined desired orientation of the mirror. An actuator is communicatively coupled to the electronic processor and receives the control signal. The actuator moves the mirror into the determined desired orientation based upon the control signal.

A control system and method for controlling side mirrors of a vehicle involve controlling, by a controller, a touch display to display a user interface comprising (i) control elements that enable a driver of the vehicle to control positions of the side mirrors, (ii) a simulated field of view of the driver generated based on current positions of the side mirrors, and (iii) an indication of any portion of the simulated field of view of the driver that corresponds to a blind spot of the driver, receiving, by the controller via the control elements displayed on the touch display, touch input from the driver indicative of desired positions of the side mirrors, and commanding, by the controller, an actuator system to position the side mirrors based on the desired positions indicated by the touch input.

A side view mirror assembly for use by an operator of an vehicle including a mirror housing mounted to an outer surface of the vehicle, a side view mirror including a reflective surface, the side view mirror being mounted in the mirror housing so that the side view mirror reflects items disposed rearwardly of the vehicle, wherein the side view mirror is configured for adjustment with respect to the mirror housing so that an angle of the mirror with respect to the mirror housing is selectively changeable, and a first marking that is visible on the reflective surface of the side view mirror so that a reflection of a portion of the vehicle falls within a first portion of the reflective surface that is defined by the first marking.

Systems are presented for improving side mirror functionality of a vehicle. In one embodiment, the systems involve a side mirror with an adjustable profile. The systems include an actuator for altering the adjustable profile of a mirror in response to signals from a sensor (e.g., a camera). The mirror is coupled to a side of the vehicle through the actuator. In another embodiment, the systems involve an integrated side mirror. The systems include a first transmissive optic, a second transmissive optic, and at least one optical element that enable a field of view to be seen through a portion of the vehicle. In an additional embodiment, the systems involve a display system for integrating side-mirror functionality into a display image. The display system includes an image processing unit and a display unit for forming a display image at a location visible to a driver. The display image includes a field of view imaged by a sensor. Other systems are presented.

An edge-lit rearview assembly comprising a housing; a mirror element having a perimeter and disposed within the housing; a bezel extending around at least a portion of the perimeter of the mirror element; at least one circuit board; at least one light source in electrical communication with the circuit board; wherein the at least one light source is in optical communication with at least a portion of the bezel.

This invention relates to a view angle adjustment mechanism that causes a view element tilting section holding a view element to be supported by a tilting support section via a plurality of concentric pivots having different diameters, to perform view angle adjustment. An inner pivot is assembled by forcible fitting using elasticity of either or both of a pivot convex and a pivot concave without screw fastening. An outer pivot includes a plurality of elastic pieces disposed at a plurality of positions in a circumferential direction of a curved surface of either or each of both of an outer-pivot convex surface and an outer-pivot concave surface. The outer pivot is assembled by the forcible fitting in the inner pivot. The assembly causes the plurality of elastic pieces to elastically abut on an opposed curved surface.

A rearview mirror includes a housing defining an interior cavity and an opening to an exterior of the housing, a notch extending from an edge of the opening and an actuation mechanism coupled within the interior of the housing. The actuation mechanism has a toggle barrel rotatably positioned within the interior cavity of the housing and a lever extending from the toggle barrel through the opening. The lever defines a first major surface and includes a locking rib extending from the first major surface adjacent the barrel. The lever and toggle barrel are rotatable between a first position and a second position, the locking rib being positioned within the notch of the housing when the lever and the toggle barrel are in the first position and being positioned away from the notch when the lever and the toggle barrel are in the second position.

An image display control device displays, on a monitor, images of the periphery of a vehicle that are captured by a left camera and a right camera installed in the vehicle. The device includes: a vehicle detection unit which detects another vehicle from the images captured by the left camera and the right camera; an enlargement unit which, when the other vehicle is detected by the vehicle detection unit, subjects the images captured by the left camera and the right camera to enlargement processing on the basis of a delay time the images take to be displayed on the monitor; and an output unit which outputs the images subjected to the enlargement processing by the enlargement unit to the monitor.

A back view mirror device for a vehicle, an automatically adjustable back view mirror apparatus for a vehicle and a method for automatically adjusting position of a back view mirror for a vehicle are provided. The back view mirror device includes: a back view mirror body; a translation actuating device configured to drive the back view mirror body to translate and position the back view mirror body in a translating direction; and a rotating actuating device configured to drive the back view mirror body to rotate and position the back view mirror body in a rotating direction.