Presented are intelligent vehicle systems with networked on-body vehicle cameras with camera-view augmentation capabilities, methods for making/using such systems, and vehicles equipped with such systems. A method for operating a motor vehicle includes a system controller receiving, from a network of vehicle-mounted cameras, camera image data containing a target object from a perspective of one or more cameras. The controller analyzes the camera image to identify characteristics of the target object and classify these characteristics to a corresponding model collection set associated with the type of target object. The controller then identifies a 3D object model assigned to the model collection set associated with the target object type. A new “virtual” image is generated by replacing the target object with the 3D object model positioned in a new orientation. The controller commands a resident vehicle system to execute a control operation using the new image.

There is provided a display device for a vehicle, the display device including: a display unit that is visible to an occupant of a vehicle; a memory; and a processor that is connected to the memory, the processor changing a content image displayed on the display unit so as to be displayed in the same direction as a direction in which a travel path of the vehicle curves.

A vehicular vision system includes a camera disposed at a side of a vehicle so as to view at least sideward and forward of the vehicle including a forward blind zone ahead of the vehicle that is caused by a leading vehicle ahead of the equipped vehicle and in the same traffic lane along which the equipped vehicle is traveling. The camera captures image data. An electronic control unit (ECU) includes electronic circuitry and associated software, with the electronic circuitry including an image processor for processing image data captured by the camera. A display screen is disposed in the equipped vehicle and viewable by a driver of the vehicle. The display screen, responsive to processing by the image processor of image data captured by the camera, displays video images derived from image data captured by the camera to provide displayed images of the forward blind zone ahead of the vehicle.

A recording and reproducing control device includes a video data acquisition unit configured to acquire video data imaged by an imager for at least one of a front view and a rear view of a vehicle; a detector configured to detect that another vehicle gets close in a distance smaller than a predetermined distance to the vehicle while the vehicle is traveling at a predetermined speed or higher; a point-of-view conversion processor configured to perform a point-of-view conversion process for a bird's-eye view on the acquired video data; a recording controller configured to record the acquired video data; a reproduction controller configured to, when reproducing the video data of a period during which the another vehicle getting close in the predetermined distance or smaller to the vehicle is detected, reproduce the converted video data; and a display controller configured to cause a display to display the reproduced video data.

A recording and reproducing control device includes a video data acquisition unit configured to acquire video data imaged by an imager for at least one of a front view and a rear view of a vehicle; a detector configured to detect that another vehicle gets close in a distance smaller than a predetermined distance to the vehicle while the vehicle is traveling at a predetermined speed or higher; a point-of-view conversion processor configured to perform a point-of-view conversion process for a bird's-eye view on the acquired video data; a recording controller configured to record the acquired video data; a reproduction controller configured to, when reproducing the video data of a period during which the another vehicle getting close in the predetermined distance or smaller to the vehicle is detected, reproduce the converted video data; and a display controller configured to cause a display to display the reproduced video data.

An image processing apparatus includes a first signal processing unit for generating a first image of a first angle of view from an image captured by a camera attached to a vehicle body, and an image superimposing unit for superimposing an image representing a part of the vehicle body on the first image.

An image processing apparatus includes a first signal processing unit for generating a first image of a first angle of view from an image captured by a camera attached to a vehicle body, and an image superimposing unit for superimposing an image representing a part of the vehicle body on the first image.

Often when there is a glare on a display screen the user may be able to mitigate the glare by tilting or otherwise moving the screen or changing their viewing position. However, when driving a car there are limited options for overcoming glares on the dashboard, especially when you are driving for a long distance in the same direction. Embodiments are directed to eliminating such glare. Other embodiments are related to mixed reality (MR) and filling in occluded areas.

Often when there is a glare on a display screen the user may be able to mitigate the glare by tilting or otherwise moving the screen or changing their viewing position. However, when driving a car there are limited options for overcoming glares on the dashboard, especially when you are driving for a long distance in the same direction. Embodiments are directed to eliminating such glare. Other embodiments are related to mixed reality (MR) and filling in occluded areas.

Provided is a lamp mounted on a vehicle where a lamp housing of the lamp is equipped with a lamp camera that captures an image of an object existing outside the vehicle and a lamp unit of which light distribution of emitted light beams is controlled to change based on positional information of the object captured by the lamp camera, in which the lamp camera has an imaging optical axis directed in a predetermined direction with respect to the vehicle, and the lamp unit is configured such that an illumination optical axis is controlled to change in an up-down direction based on the positional information of the object.