This vehicle-mounted camera includes a substrate on which an imaging device is mounted, a holder that holds a lens unit, and a bonding portion that is made of an adhesive having photo-curing property and bonds the substrate and the holder to each other in a direction intersecting an imaging surface of the imaging device.

A vehicle information display device 100 includes: an environment determination unit (115) that predicts an occurrence of a backward movement of a vehicle based on an output from an environment information acquisition unit, an image processing unit (121) that receives an image captured by a camera and generates an image to be displayed on a display screen, and a display switching unit that switches a display of a monitor screen provided in a vehicle in accordance with a traveling status of the vehicle. When the environment determination unit (115) predicts an occurrence of a backward movement, the image processing unit (121) starts image processing for the backward movement in advance, and When the user performs the backward movement operation, the output image from the image processing unit is displayed on the display screen.

A vehicle information display device 100 includes: an environment determination unit (115) that predicts an occurrence of a backward movement of a vehicle based on an output from an environment information acquisition unit, an image processing unit (121) that receives an image captured by a camera and generates an image to be displayed on a display screen, and a display switching unit that switches a display of a monitor screen provided in a vehicle in accordance with a traveling status of the vehicle. When the environment determination unit (115) predicts an occurrence of a backward movement, the image processing unit (121) starts image processing for the backward movement in advance, and When the user performs the backward movement operation, the output image from the image processing unit is displayed on the display screen.

A connection device for an appliance with an appliance housing includes a main body having an appliance-side end, a connection-side end facing away from the appliance-side end, and a conduit extending from the appliance-side end to the connection-side end, a securing element securing the main body to a wall section of the appliance housing, and a conductor leading through the main body from the connection-side end to the appliance-side end. The main body has a first abutment surface facing the appliance-side end. The securing element has a second abutment surface facing the first abutment surface. The first abutment surface and the second abutment surface enclose therebetween a receiving region for clamping reception of the wall section of the appliance housing.

A vehicular security camera assembly for visually recording and communicating with a third party includes a microprocessor integrated within the interior of a vehicle. The microprocessor has a transceiver engaging by wireless communication to an agent of an entity being a third party security company. A speaker is in electric communication with the microprocessor, and a microphone is in electric communication with the microprocessor as well. A camera system is in electric communication with the microprocessor. The camera system includes a rear camera and a roof camera for recording visuals within the interior of the vehicle. Furthermore, the camera system includes a pair of bumper cameras and a pair of mirror cameras for recording an exterior surrounding of the vehicle. Additionally, a start button is in electric communication with the microprocessor.

A vehicular security camera assembly for visually recording and communicating with a third party includes a microprocessor integrated within the interior of a vehicle. The microprocessor has a transceiver engaging by wireless communication to an agent of an entity being a third party security company. A speaker is in electric communication with the microprocessor, and a microphone is in electric communication with the microprocessor as well. A camera system is in electric communication with the microprocessor. The camera system includes a rear camera and a roof camera for recording visuals within the interior of the vehicle. Furthermore, the camera system includes a pair of bumper cameras and a pair of mirror cameras for recording an exterior surrounding of the vehicle. Additionally, a start button is in electric communication with the microprocessor.

In one aspect, a system for an agricultural application includes an implement including a frame. The frame includes a center frame section and at least one movable frame section. A first imaging device is installed on the movable frame section. A second imaging device is installed inboard of the movable frame section relative to the center frame section in the unfolded position. A computing system is communicatively coupled to the first imaging device and the second imaging device. When the implement is in the unfolded position, the computing system receives image data associated with an imaged environment outward of the implement from the first imaging device. When the implement is in the folded position, the computing system receives image data associated with an imaged environment outward of the implement from the second imaging device.

In one aspect, a system for an agricultural application includes an implement including a frame. The frame includes a center frame section and at least one movable frame section. A first imaging device is installed on the movable frame section. A second imaging device is installed inboard of the movable frame section relative to the center frame section in the unfolded position. A computing system is communicatively coupled to the first imaging device and the second imaging device. When the implement is in the unfolded position, the computing system receives image data associated with an imaged environment outward of the implement from the first imaging device. When the implement is in the folded position, the computing system receives image data associated with an imaged environment outward of the implement from the second imaging device.

A rear-view mirror and modular monitor system and method include an interior mirror that embeds a modular monitor behind see-through mirror glass. In some embodiments, the system includes multiple cameras, some in the vehicle, bus and/or truck, as well as some cameras outside the vehicle, bus and/or truck, advantageously providing the driver an opportunity to view what is happening, for example, in the back rows of the bus and/or cabin, while also using the mirror to look at objects in the bus and/or cabin that are visible using the mirror. The rear-view mirror and modular monitor system is configured to be easily assembled and/or disassembled when necessary for maintenance and/or to replace parts.

This application is directed to augmenting training images used for generating a model for monitoring vehicle drivers. A computer system obtains a first image of a first driver in an interior of a first vehicle and separates, from the first image, a first driver image from a first background image of the interior of the first vehicle. The computer system obtains a second background image and generates a second image by overlaying the first driver image on the second background image. The second image is added to a corpus of training images to be used by a machine learning system to generate a model for monitoring vehicle drivers. In some embodiments, at least one of the first driver image and the second background image is adjusted to match lighting conditions, average intensities, and sizes of the first driver image and the second background image.