A method for assembling a vehicular interior rearview mirror assembly includes providing a mirror mount and a mirror head. The mirror head includes a transparent mirror frame and a mirror reflective element accommodated at the transparent mirror frame. The transparent mirror frame has a patterned front side having a plurality of channels established thereat and a rear side opposite the patterned front side. An illumination source is provided at the mirror head. The patterned front side of the transparent mirror frame is patterned to reflect light emitted by the illumination source, when powered, so that an illumination pattern is visible to a person viewing the rear of the transparent mirror frame. The mirror head is pivotally mounted at the mirror mount.

A display system according to the present disclosure includes at least a first reflective surface and a second reflective surface on an optical path leading from a display device to a last reflective surface. The first reflective surface reflects a light beam emerging from the display device toward the second reflective surface. The second reflective surface reflects, toward the last reflective surface, the light beam reflected from the first reflective surface. The light beam emerging from the display device travels along a first optical path leading from a display screen of the display device to the first reflective surface and then travels along a second optical path leading from the second reflective surface to the last reflective surface. The first optical path and the second optical path intersect with each other before the light beam impinges on the last reflective surface.

A movable carrier auxiliary system includes an environment detecting device including an image capturing module, a storage module, and an operation module. The image capturing module is disposed on a movable carrier for capturing an environment image around the movable carrier. The storage module stores a plurality of image models. A control method thereof includes that the operation module is electrically connected to the image capturing module and the storage module to detect whether the environment image has an image that matches at least one of the image models or not, and to generate a corresponding detection signal.

A vehicular exterior rearview mirror assembly includes a mirror reflective element assembly. The mirror reflective element assembly includes a main reflective element backing plate and a main reflective element. The main reflective element includes a glass substrate having a mirror reflector coated at a surface thereof. The mirror reflector-coated glass substrate of the main reflective element is attached at the main reflective element backing plate. The mirror reflective element assembly includes an auxiliary reflective element backing plate and an auxiliary wide angle reflective element. The auxiliary wide angle reflective element is positioned on the auxiliary reflective element backing plate. The auxiliary reflective element backing plate is attached to the main reflective element backing plate via an attachment mechanism.

A movable carrier auxiliary system includes a state detecting device, a braking device, an environmental detecting device and an emergency brake controlling device. The state detecting device detects a movement state of a movable carrier. The environmental detecting device includes at least one image capturing module and an operation module. The brake controlling method thereof includes receive the movement state detected by the state detecting device, and deriving an operating distance based on the movement state with the operation module; capture the environmental image with the image capturing module; determine whether there is an obstruction within the operating distance based on the environmental image; automatically actuate the braking device with the emergency brake controlling device when there is the obstruction within the operating distance in the environmental image, thereby to stop the movable carrier within the operating distance.

Provided are an imaging method, an imaging device, a rearview mirror and a storage medium. The imaging method includes: performing spot photometry on a first photometric area of a plurality of photometric areas divided from an image to be tested; and acquiring, according to a result of spot photometry on the first photometric area, a first target image corresponding to the image to be tested. By selecting an appropriate first photometric area to perform the spot photometry and then acquiring the first target image according to the result of spot photometry, the imaging of a target object contained in the first target image would be clearer since the photometric result of a spot photometry is more accurate and is not affected by other areas.

A vehicular interior rearview mirror assembly includes a mirror head having a mirror casing and an electro-optic mirror reflective element. A printed circuit board is disposed in the mirror head and includes (i) a light sensor, (ii) an indicator LED and (iii) an electronic switch. A multi-function light pipe is disposed at the mirror head with (i) a first end at the light sensor, the indicator LED and the electronic switch, and (ii) a second end at a perimeter region of the mirror head so as to be viewable and accessible by the driver of the vehicle. The light sensor senses light from rearward of the vehicle via the light pipe. Light emitted by the indicator LED, when energized, is viewable by the driver via the light pipe. The light pipe actuates the electronic switch responsive to a user actuation at the second end of the light pipe.

The purpose of the present invention is to provide a myopia treatment device. A myopia treatment device of the present invention comprises a light transmission part selected from a group consisting of an eyesight correcting tool, an eye protection tool, a face protection tool, a sunshade, a display device, a window, a wall, a light source covering, and a coating material. The light transmission part of the device transmits violet light having a wavelength within a range of 360 nm to 400 nm inclusive and thus treats myopia. Or, the myopia treatment device comprises a light emission part selected from a group consisting of lighting equipment, a display device, and a light irradiation device. The light emission part of the device emits violet light having a wavelength within a range of 360 nm to 400 nm inclusive and thus treats myopia.

According to the invention, there are provided a vehicle minor with an image display function including: an image display device; and a half mirror, in which the half minor includes a reflection layer, and the reflection layer is inclined with respect to a surface of an image display portion of the image display device, and a method of manufacturing a vehicle mirror with an image display function including: positioning a half minor including a reflection layer on a surface of an image display portion of an image display device such that the half mirror is inclined with respect to the surface of the image display portion. In a vehicle minor with an image display function according to the invention, image visibility is hardly reduced by outside light.

A camera monitoring system for a vehicle includes an interior rearview mirror assembly with a video display screen disposed behind the interior mirror reflective element. The video display screen is operable to display video images derived at least in part from image data captured by at least one video camera of a plurality of video cameras of the equipped vehicle. Image data captured by at least a driver-side viewing video camera and a passenger-side viewing video camera is provided to an image processor and is processed by the image processor to detect vehicles present exterior of the equipped vehicle. Responsive at least in part to detection of another vehicle, video images derived at least in part from image data captured by the driver-side viewing video camera, a rear viewing video camera and/or the passenger-side viewing video camera are displayed by the video display screen.