A vehicular camera module includes a metal front housing, a printed circuit board housed by the metal front housing, a lens holder disposed at the metal front housing with the lens aligned with an imager at the printed circuit board, a metal rear housing joined with the metal front housing, and a coaxial connecting element. With the metal rear housing joined with the metal front housing, an inward-extending portion of the coaxial connecting element extends inward of the metal rear housing towards the metal front housing and electrically connects with circuitry at the printed circuit board. With the metal rear housing joined with the metal front housing, a plurality of spring tabs make, via spring contact, an electrical connection between the circuitry at the printed circuit board and the metal rear housing. An outward-extending portion of the coaxial connecting element is configured for coaxial electrical connection to a vehicle connector.

A camera system (1) for a commercial vehicle has at least one image capture unit (3) for capturing an image, an image reproduction unit (8) for reproducing the captured image at least one functional unit (4.1, 4.2) for performing a vehicle function and at least one control unit (2) for outputting a control signal. The camera system (1) transmits a video signal between the control unit (2) and the image reproduction unit (8) and controls the image capture unit (3) and the functional unit (4.1, 4.2) by a control signal outputted from the control unit (2). The functional interface (6.1) is provided between the image capture unit (3) and the functional unit (4.1, 4.2), via which functional interface (6.1), image capture unit (3) and the functional unit (4.1, 4.2) are coupleable with each other and decoupleable from each other.

A method for detecting a blocking state of an image acquisition device, an electronic device, and a computer storage medium are provided. The method includes: an image acquired by an image acquisition device is obtained; and it is determined, according to the acquired image, whether the image acquisition device is in a blocked state.

The apparatus for controlling a display mirror for a vehicle includes an operation mode determiner for determining an operation mode based on a position of a mirror assembly, the mirror assembly accommodating a display for displaying an image obtained by an imaging device within an inner space formed by a mirror coupled to a surface of a mirror housing; a power supply for supplying a power to the display; and a controller configured to adjust an intensity of the power supplied to the display based on the determined operation mode. The operation mode determiner determines between a first operation mode in which an image reflected by the mirror is visible to a driver and a second operation mode in which the image obtained by the imaging device is displayed on the display. In particular, the display remains turned on in the first operation mode and the second operation mode.

A control device is installed in a vehicle including an electrical storage device to which is connected a plurality of electrical paths. The vehicle includes an external signal recognition device that recognizes a predetermined image or signal based on an image outside of the vehicle or a signal from outside of the vehicle, an external environment recognition device that recognizes a predetermined environment based on a surrounding environment of the vehicle when the predetermined image or signal is recognized by the external signal recognition device, regardless of whether a system of the vehicle is started, and a relay connected to at least one object electrical path. The control device includes a processor that turns the relay off when a count of times of the external environment recognition device continuously recognizing the predetermined environment for no shorter than a predetermined time is no less than a predetermined count of times.

A control device is installed in a vehicle including an electrical storage device to which is connected a plurality of electrical paths. The vehicle includes an external signal recognition device that recognizes a predetermined image or signal based on an image outside of the vehicle or a signal from outside of the vehicle, an external environment recognition device that recognizes a predetermined environment based on a surrounding environment of the vehicle when the predetermined image or signal is recognized by the external signal recognition device, regardless of whether a system of the vehicle is started, and a relay connected to at least one object electrical path. The control device includes a processor that turns the relay off when a count of times of the external environment recognition device continuously recognizing the predetermined environment for no shorter than a predetermined time is no less than a predetermined count of times.

A method for assembling a vehicular camera includes providing a housing a circuit element. A first housing portion includes a lens holder and a second housing portion includes a connector portion configured for connecting to wiring of a vehicle. A plurality of electrical connector elements are disposed at the connector portion of the second housing portion, each having (i) a first end portion configured for electrically connecting to circuitry of the circuit element and (ii) a second end portion configured for electrically connecting to the vehicle wiring. The first end portions have a thickness that is less than a thickness of the second end portions. When mating the first and second housing portions, the first end portions engage with the circuitry of the circuit element and the electrical connector elements flex as the first end portions engage the circuitry and make electrical connection with the circuitry.

Digital mirror systems for vehicles and methods of operating the same are disclosed. An example vehicle control system includes:a driver monitoring system including a head position determiner to determine at least one of a location of a head, an orientation of the head, or an eye gaze point of the head; a digital mirror system including a region-of-interest (ROI) detector to identify an ROI based on the at least one of the location of the head, the orientation of the head, or the eye gaze point of the head, and a cropper to extract a portion of a first image corresponding to the ROI to form a second image, the first image representing an area exterior to the vehicle; and a display within an interior area of the vehicle to present the second image

A method of assembling a vehicular camera module includes providing a metal front housing having (i) a front portion, (ii) a rear portion opposite the front portion and (iii) a plurality of side walls extending between the front portion and the rear portion. A printed circuit board is disposed in a cavity of the metal front housing, and a lens holder is attached at the front portion of the metal front housing so that the lens is optically aligned with an imager of the printed circuit board. A metal rear housing has a connector portion having a coaxial connecting element. With the metal rear housing joined with the rear portion of the metal front housing, an inner portion of the coaxial connecting element extends inward into the cavity of the metal front housing and an outer portion of the coaxial connecting element extends outward from the metal rear housing.

A camera assembly for a vehicle vision system includes a housing with a lens holder at a first housing portion and a connector portion at a second housing portion. The connector portion is configured for connecting to vehicle wiring when the camera assembly is installed at a vehicle. A circuit element is disposed within the housing and a plurality of electrical connector elements is disposed at the connector portion of the second housing portion. Each of the electrical connector elements includes a first end portion configured for electrically connecting to circuitry of the circuit element and a second end portion configured for electrically connecting to the vehicle wiring. The first end portions of the electrical connector elements include flexible elements that, during mating of the first housing portion to the second housing portion, flex as the first end portions engage the circuitry and make electrical connection with the circuitry.