An audio communication system for communication between vehicle occupants in a vehicle, including an image capturing device configured to monitor a first vehicle occupant, a processor configured to receive an image of the first vehicle occupant from the image capturing device and determine whether the first vehicle occupant is attracting attention from a second vehicle occupant, a first microphone associated to the first vehicle occupant configured to receive an audio input from the first vehicle occupant in response to the determination of the first vehicle occupant attracting the second vehicle occupant's attention, and a first speaker associated to the second vehicle occupant configured to activate an audio augmentation of the received audio input in the first speaker and output the augmented audio input.

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.

In a vehicle camera device, engaging claws of a base are passed through through-holes of a camera mechanism and insertion pins of a second cover are inserted in insertion holes that are within the engaging claws, such that the through-holes are positioned with respect to the engaging claws and the insertion pins are positioned with respect to the insertion holes. Therefore, the camera mechanism and the second cover can be positioned with respect to the base, and a lens of the camera mechanism and an opening of the second cover can be aligned well.

A method of providing image includes obtaining at least one first image of a surrounding area (52) from a first camera (26, 33, 38A, 38B, 40A, and 40B). At least one second image of the surrounding area (52) is obtained from a second camera (26, 33, 38A, 38B, 40A, and 40B). The at least one first image is fused with the at least one second image to generate a three-dimensional model (51) of the surrounding area (52). A first image (54A) of the three dimensional model is provided to a display by determining a first position of an operator. A second image (54B) of the three-dimensional model is provided to the display by determining when the operator is in a second position to simulate motion parallax.

A rearview assembly includes an electrochromic element. The electrochromic element includes a first substrate including a first surface and a second surface. The electrochromic element further includes a second substrate comprising a third surface and a fourth surface. The first substrate and the second substrate form a cavity. The electrochromic element includes an electrochromic medium contained in the cavity. The rearview assembly includes an image sensor directed toward the fourth surface and configured to capture near-infrared light reflected from an object and projected through the electrochromic element. The rearview assembly includes a transflective film disposed adjacent to the fourth surface having a near-infrared light transmission level and a visible light reflectance level.

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 rear view system for a vehicle includes: a transmitter configured to transmit a transmitter signal; a receiver configured to receive the transmitter signal and transmit information on whether the transmitter signal is received; a rear camera configured to capture a rear view of the vehicle, and transmit an image for the captured rear view of the vehicle; one or more displays mounted within the vehicle; and a controller configured to receive an image for a rear view of the vehicle from the rear camera in response to the reception of information indicating that the transmitter signal is not received from the receiver, and display the received image for the rear view of the vehicle on the one or more displays.

A stereo camera apparatus includes a first imaging unit including a first imaging optical system provided with a plurality of lens groups, and a first actuator configured to change a focal length by driving at least one of the plurality of lens groups of the first imaging optical system; a second imaging unit including a second imaging optical system provided with a plurality of lens groups, and a second actuator configured to change a focal length by driving at least one of the plurality of lens groups of the second imaging optical system; a focal length controller configured to output synchronized driving signals to the first and second actuators; and an image processing unit configured to calculate a distance to a subject by using images captured by the first imaging unit and the second imaging unit.

A vehicle outer mirror device includes a housing, a mirror main body, a mirror drive unit, and an imaging unit. The housing is attached to a door of a vehicle and includes an opening facing rear of the vehicle. The mirror main body is disposed in the opening of the housing and has a light reflection region reflecting light entering from outside of the housing and a light transmission region capable of transmitting the light to inside of the housing. The mirror drive unit is disposed inside the housing and adjusts an orientation of the mirror main body. The imaging unit is fixed inside the housing, images the rear of the vehicle through the light transmission region, and is disposed in a state in which an imaging optical axis is inclined toward the outside of the vehicle with respect to a reflection optical axis of the light reflection region.