Disclosed are an around view monitor system and a method of controlling the same. The around view monitor system includes: a travel information receiving unit configured to receive gear information from a transmission of a vehicle; a touch input receiving unit configured to receive a touch signal for a display device provided in the vehicle; and a control unit configured to control an output effect to be applied to image data around the vehicle output to the display device according to the gear information transmitted from the travel information receiving unit and the touch signal transmitted from the touch input receiving unit.

In order to provide a vehicle in which a side road area of the vehicle to be watched by a side area watching camera is illuminated by a side area illumination lamp for illuminating a foot area of a man climbing into the vehicle when the vehicle is parked or driven carefully on an alley or a mountain road in the darkness, the vehicle is equipped with the side area illumination lamp for illuminating a side road area, a side area watching camera for watching the side road area, a navigation display and an electronic control unit, whereby the side area illumination lamp is put on when a man approaches the vehicle as well as when the vehicle is being driven at a vehicle speed less than a certain low threshold speed with the side area watching camera being made on.

A motor vehicle having an external rearview mirror includes a mirror drive assigned to the external rearview mirror, by which the external rearview mirror can be moved into a first mirror position or into a second mirror position, at least one display unit that can be viewed by the driver of the motor vehicle, and a camera directed at the rearward vehicle surroundings, which camera supplies an image signal on which an image of the surroundings is based that can be displayed by the display unit. A vehicle speed sensor and a control unit are provided by which the mirror drive can be controlled as a function of the driving speed such that the external rearview mirror is moved from the first mirror position into the second mirror position.

The present disclosure relates to an around view monitor (AVM) system that provides image information on the ambient conditions of a vehicle to a driver. In displaying a top-view image in which the front, rear, left, and right conditions of a vehicle are seen downward from a portion over the vehicle, an AVM system and method checks a driving state or driving direction of the vehicle on the basis of information received from sensors and elements included in the vehicle, and outputs the top-view image which is suitably edited depending on the driving conditions, thereby providing information necessary for driving to a driver.

A camera wing system, a vehicle comprising such camera wing system, and a method to operate such a camera wing system are provided, comprising a camera to record a field of view of the camera in a scenery at least around a rear part of the vehicle, where a presented view is provided to a driver of the vehicle as a part of the field of view, wherein the camera wing system is adapted to automatically panning the presented view of the camera to another presented view different from the previous presented view in order to keep a point of interest of the rear part of the vehicle within the presented view provided to the driver regardless of a driving situation of the vehicle.

System and methods to provide an adaptive rear view display are disclosed. An example disclosed first vehicle includes a rear view camera and an adaptive display controller. The example adaptive display controller is to determine, with range detection sensors, a following-time of a second vehicle behind the first vehicle. The example adaptive display controller is also to determine a workload estimate associated with the first vehicle. Additionally, when the first vehicle is moving forward, the adaptive display controller is to selectively display video from the rear view camera based on the following-time, the workload estimate, and a user request.

A dynamically adjusting surveillance system provides a monitor, a sequence of views that include a key view. The sequence of views is captured by a camera. The monitor can display a portion of the camera view. The system is configured such that the displayed portion of the camera view includes the key view to a driver of the vehicle. The key view can be selected to be a rearward view when the vehicle is not turning, and a view of cross traffic from a side opposite which a turn is made at an intersection.

A system and method for navigating a vehicle automatically from a current location to a destination location without a human operator is disclosed. The method includes identifying a vehicle location using global positioning system (GPS) data regarding the vehicle. Also included is identifying that the vehicle location is near or at a parking location. Then, using mapping data defined for the parking location. The mapping data at least in part is used to find a path at the parking location to avoid a collision of the vehicle with at least one physical structure when the vehicle is automatically moved at the parking location. The method includes instructing the electronics of the vehicle to proceed with controlling the vehicle to automatically move from the current location to the destination location at the parking location. The electronics use as input at least part of the mapping data and sensor data collected from around the vehicle by at least two vehicle sensors. The path is configured to be updatable dynamically based on changes in the destination location or changes along the path. The destination location is a parking spot for the vehicle at the parking location.

A display system for a vehicle includes a first camera in connection with the vehicle. The first camera outputs unprocessed image data. A second camera outputs a first processed image data. A display controller is in communication with the first camera via a conductive interface and the second camera via a wireless interface. The controller is configured to receive the unprocessed image data from the first camera and receive the first processed image data from the second camera. The controller further generates second processed image data from the unprocessed image data and selectively outputs the first processed image data and the second processed image data to a vehicle display device.

A method and an apparatus of controlling an operation of a side and rear monitoring camera system of a vehicle are provided. The method and apparatus provide side and rear information based on a user's convenience and request by receiving a request signal for securing of side and rear visual fields of a user as well as vehicle driving and displaying side and rear visual fields on a display unit according to user's necessity. More particularly, the side and rear monitoring camera system displays a side and a rear visual field image to a driver even when the driver unlocks a door using a smart key, exits the vehicle that is not turned on, and turns on the vehicle.