An on-vehicle image processing device is provided. The on-vehicle image processing unit includes a signal conversion circuit arranged to convert an image signal acquired from an imaging unit into image data of a predetermined standard responding to an external command, and a control circuit arranged to acquire the image data, display an image of the imaging unit on a display unit through starting multiple modules in order, and perform data processing to the image. Upon a user performing a reversing operation, the control circuit starts a first module to display the image data acquired from the signal conversion circuit on the display unit as it is, and subsequently starts a second module to perform predetermined data processing to the image data.

A parking assist system and method that uses one or more cameras on the side of a vehicle to provide modified video output to an electronic display unit that can assist a driver with parallel parking. The modified video output provides the driver with real time visual feedback of the position of the vehicle, with respect to a curb or other barrier, and may also indicate if the current position is compliant with local parking regulations, as determined based on the vehicle's current location. The modified video output includes one or more visual indicators that may be graphically superimposed over top of the video output from the side camera so that the driver can see in real time when the vehicle is or is not lawfully parallel parked.

A work vehicle fleet includes a first model of work vehicle and a second model of work vehicle, different than the first model. The first model includes a first set of display devices; a first set of cameras; and a first controller configured to display a standard set of feeds from the associated first side, second side, and central location of the first set of cameras at the first set of display devices so that the associated feeds are arranged at the first side, the second side, and the central location, respectively, relative to the first operator FOV. The second model includes a second set of display devices; a second set of cameras; and a second controller configured to display so that the associated feeds are arranged at the first side, the second side, and the central location, respectively, relative to the second operator FOV.

In a vehicular visibility support apparatus, a camera positioned on a front portion that is either the left side or the right side of a vehicle provides an image of a view laterally behind the vehicle including a part of a face of the side of the vehicle as a camera image. An input portion accepts input manipulation to generate an input signal. A control portion trims a desired region in the camera image based on the input signal and provides a trimmed image. The control portion trims the camera image based on: a vertical reference line including a part of the face on the side of the vehicle in a trimmed image before the input manipulation is accepted by the input portion, and a horizontal reference line orthogonal to the vertical reference line; and a direction of movement for change to the desired region inputted to the input portion.

A displace device for a vehicle includes a display unit and a controller. The controller is configured to: receive an image of a road in which the vehicle is located and trajectory information providing a trajectory of vehicle movement, detect one or more lanes of the road based on the received image of the road, assign weights to (i) the detected one or more lanes and (ii) the trajectory of vehicle movement, respectively, based on a preset reference value, generate a virtual road image providing a direction based on the assigned weights, and control the display unit to display the generated virtual road image.

A surrounding environment recognition device includes: an image acquisition unit that obtains a photographic image from a camera for capturing, via a camera lens, an image of a surrounding environment around a mobile object; an image recognition unit that recognizes an object image of an object present in the surrounding environment based upon the photographic image obtained by the image acquisition unit; an accumulation detection unit that detects accumulation settled on the camera lens based upon the photographic image obtained by the image acquisition unit; a suspension decision-making unit that makes a decision, based upon detection results provided by the accumulation detection unit, whether or not to suspend operation of the image recognition unit; a tracking unit that detects a characteristic quantity in a tracking target image from a specific area in an image captured by the image acquisition unit for a reference frame, determines through calculation an estimated area where the characteristic quantity should be detected in an image captured by the image acquisition unit for a later frame relative to the reference frame and makes a decision as to whether or not the characteristic quantity for the tracking target image is also present in the estimated area; and a resumption decision-making unit that makes a decision, based upon at least decision-making results provided by the tracking unit and indicating whether or not the characteristic quantity for the tracking target image is present, as to whether or not to resume the operation of the image recognition unit currently in a suspended state.

An augmented road line display system that includes one or more sensors installed on a vehicle, one or more external databases, and processing circuitry. The processing circuitry is configured to receive inputs from the one or more databases, sensors of the vehicle, and a sub-system of the vehicle, build and validate a road line model to detect or predict a road line based on the inputs received, determine environmental conditions based on the inputs from one or more of the databases, and a sub-system of the vehicle, assign weights to the inputs received based on the environmental conditions to generate weighted inputs, and execute the road line model to determine the road line based on the weighted inputs.

A visual system (1) for a vehicle (7) having a capturing unit (2) for capturing a field of view (8) and a calculation unit (3), which is adapted to generate image data to be displayed based on the captured image data, and to supply the same to an image display unit (4), wherein the image data to be displayed include the field of view (8) captured by the capturing unit (2), the image display unit (4) is adapted to display the image data to be displayed, so that they are visible for the driver of the vehicle (7), and the calculation unit (3) is adapted to superimpose at least one trajectory (10, 10′) of a future track/driving curve of the vehicle (7) on the image data to be displayed on the image display unit (4), if a steering angle of the vehicle (7) has a predetermined amount.

A display control device for a vehicle includes: a display controller that displays a predetermined display image on a windshield of the vehicle; a visibility reducing area detector that detects a presence or an absence of a visibility reducing area which reduces a visibility of the display image on the windshield; and a gaze detector that detects a gaze of a driver. When the display image overlaps with the visibility reducing area and the driver does not keep the gaze on the display image, the display controller moves the display image to an outside of the visibility reducing area.

A display control device for a vehicle includes: a display controller that displays a determined display image including a display of a traveling state of the vehicle on a windshield of the vehicle; a visibility reducing area detector that detects a presence or an absence of a visibility reducing area on the windshield, the visibility reducing area reduces visibility of a driver; and a gaze detector that detects a gaze of the driver. When the visibility reducing area is detected, but the display of the traveling state does not overlap with the visibility reducing area, and the driver keeps the gaze on the visibility reducing area, the display controller displays, on the visibility reducing area, a traveling direction information necessary for driving the vehicle.