A vehicular interior rearview mirror assembly includes a mounting base having a socket, and a mirror head attached at and pivotable about the mounting base. The mirror head includes a variable reflectance electro-optic mirror reflective element, and a ball member that forms a pivot joint with the socket. The mirror reflective element is attached at an attachment plate that includes electrically conductive elements that are electrically connected to respective electrically conductive contacts at the rear side of the mirror reflective element via a connector portion of each electrically conductive element engaging and flexing and being biased toward the respective electrically conductive contact. The electrically conductive elements are electrically connected to a connector of the ball member. With the mounting base mounted at the interior portion of the vehicle and the ball member received in the socket of the mounting base, the connector is electrically connected to a vehicle wire harness.

A mounting part structure of an external detection sensor for a vehicle includes a sensor cover. A front portion of the sensor cover is locked to the sensor bracket via a front locking part that restricts displacement in a vertical direction of the vehicle when displacement of the sensor cover in forward and rearward directions of the vehicle and a vehicle width direction and rotation thereof around an axis following the vehicle width direction are allowed. A rear portion of the sensor cover is locked to the console bracket via a rear locking part that restricts displacement of the sensor cover in the vertical direction of the vehicle and the forward and rearward directions of the vehicle when displacement of the sensor cover in the vehicle width direction is allowed. The rear portion of the sensor cover is biased in the vehicle width direction by a rear spring part.

Disclosed is a holder for retaining an electronic device within a vehicle. The holder includes a first segment oriented along a first axis, a second segment unitary with the first segment and oriented along a second axis, and a third segment unitary with the second segment and oriented along a third axis. The second segment includes opposite end portions. The vehicle includes a sun visor mounted on an elongated member mounted to an inner surface of the vehicle. The elongated member includes opposite end portions. The first segment of the holder includes a hooked end portion that is non-rotatably secured to one of the opposite end portions of the elongated member. The holder includes a strip of hook-and-loop material adhesively secured to the third segment. The cell phone has a backside surface to which is secured another strip of hook-and-loop material. One of the strips of hook-and-loop material, when engaged with and secured to the other of the strips of hook-and-loop material, secures the cell phone to the third segment.

A vehicular interior rearview mirror assembly includes a mirror head having an interior mirror reflective element. The mirror reflective element has a mirror transflector that transmits near-IR light incident thereon, transmits visible light incident thereon and reflects visible light incident thereon. The mirror assembly includes a camera disposed within the mirror head and viewing through the mirror transflector. The camera includes an imaging sensor having a quantum efficiency (QE) of at least 15% for near-infrared (near-IR) light having a wavelength of 940 nm. The mirror assembly further includes first, second and third near-IR illumination sources disposed within the mirror head and operable to emit near-IR light that passes through the mirror transflector. The near-IR illumination sources are at respective angles relative to a planar front surface of the mirror reflective element and, when powered, illuminate respective in-cabin regions for a driver monitoring function or an occupant detection function.

A vehicular trailer hitching assist system includes a rear backup camera disposed at a rear portion of a vehicle and a control disposed in the vehicle. A display device includes a video display screen operable to display video images for viewing by a driver of the vehicle. Responsive to the driver initiating a hitching maneuver event by engaging reverse gear of the vehicle, rear backup video images derived from image data captured by the rear backup camera are displayed at the video display screen. An overlay overlays the displayed rear backup video images and aids in guiding connection of a trailer hitch of the equipped vehicle to a trailer tongue of a trailer. Continued display of rear backup video images that are overlaid by the overlay is ceased upon elapse of a threshold period of time or upon exceeding a threshold speed or upon exceeding a threshold distance traveled.

An in-cabin monitoring system includes a camera which captures an image of an inside of a cabin of a vehicle, a light source which irradiates the inside of the cabin with light, and a controller which controls the camera and the light source. The light source is capable of emitting first light which is light to be emitted when checking whether a person is present using the camera and second light which is stronger than the first light. The controller captures an image of the inside of the cabin using the camera while causing the light source to emit the second light, before the person gets in the vehicle and after the person gets out of the vehicle.

An approach is provided for determining an optimal alignment of a device. The approach, for example, involves receiving image data from a device mounted in a vehicle. The approach also involves presenting an alignment template in a user interface of the device as an overlay on the image data, wherein the alignment template provides one or more guidelines indicating a target alignment of the device to capture images from the vehicle for an application. The approach further involves processing the image data against the alignment template to determining an alignment of the device in relation to the target alignment.

An articulated stand including a first part and a second part. The first part is configured for holding an electronic device. The first part includes a ball pivot with a chamber and a connector. The chamber defined through the ball pivot. The connector accommodated at least partially in the chamber. The connector configured to electrically connect with a cable connector. The second part including a ball housing portion receiving the ball pivot to form a ball joint.

A forward facing imaging system for a vehicle includes an interior rearview mirror assembly mounted at an interior portion of a vehicle and a camera disposed at the interior rearview mirror assembly. The camera has a forward field of view through a windshield of the vehicle. The camera captures image data and captured image data is recorded by a recording system. During operation of the vehicle, the recording system records image data, as it is captured over a given period of operation of the vehicle, in a closed-loop fashion onto electronic memory. Image data, as captured by the camera, is processed by an image processor in order to determine the presence of at least one object forward of the equipped vehicle.

A vehicular driver monitoring system includes an interior electrochromic rearview mirror assembly and a camera disposed at the interior electrochromic rearview mirror assembly behind and viewing through an electrochromic mirror reflective element into the interior cabin of the vehicle. Supplemental sources of near infrared illumination are integrated into the mirror assembly that, when powered to emit near infrared light, illuminate at least the driver-side front seating area within the interior cabin of the vehicle. Presence of the camera is not readily apparent to an occupant of the vehicle. The camera at least (a) views the driver-side front seating area of the equipped vehicle and (b) views a passenger-side front seating area of the equipped vehicle. The driver of the equipped vehicle is monitored via processing at the processor of image data captured by the camera.