A method of performing lane detection without the use of a frame buffer may include capturing image frames with an image sensor in a vehicular imaging system. Feature extraction circuitry in the vehicular imaging system may analyze a frame to detect features corresponding to possible lane markers. The features may be extracted and stored in memory for further processing, while the rest of the frame may not be stored in memory and may not undergo further processing. Processing circuitry may perform a first estimation of lane marker location based on a continuous feature that is present in multiple different image frames and may perform a second estimation of lane marker location based on multiple features in a single image frame that form a connected feature. The processing circuitry may determine the presence of a lane marker based on the continuous feature and the connected feature.

The present application relates to a method and apparatus for determining a preferred off-road vehicle path including a lidar operative to generate a depth map of an off road surface, a camera for capturing an image of the off road surface, a processor operative to receive the depth map, determine a vehicle path in response to the depth map and a host vehicle characteristic, combine a graphical representation of the vehicle path with the image to generate an augmented image, and a display to display the augmented image to a host vehicle operator.

Various embodiments are described herein for a vision display system for a vehicle. The system comprises at least one camera configured to capture image data of at least one zone for the vehicle, a processing unit configured to receive the image data from the at least one camera, to correct the image data to reduce distortion, and to generate final image data from the corrected image data for viewing by an operator, a passenger or a user of the host vehicle. A display is configured to output the image data.

An object recognizer of an image processing apparatus separately extracts a first feature point and a second feature point of a first line segment and a second line segment of which a variation is equal to or greater than a variation threshold value and the first feature point and the second feature point of the first line segment and the second line segment of which the variation is smaller than the variation threshold value, and determines a corresponding point in a second captured image corresponding to the first feature point of the first line segment of which the variation is equal to or greater than the variation threshold value as the second feature point of the second line segment corresponding to the first line segment of which the variation is equal to or greater than the variation threshold value to recognize an object.

A method is described for interpreting a surrounding environment of a vehicle. The method includes a step of providing an image of the surrounding environment of the vehicle, a step of forming an item of relational information using a first position of a first object in the image and a second position of a second object in the image, the item of relational information representing a spatial relation between the first object and the second object in the surrounding environment of the vehicle, and a step of use of the item of relational information in order to interpret the surrounding environment of the vehicle.

A display device includes: a display unit configured to display an image on a windshield of a host vehicle; and an electronic control unit configured to: recognize other vehicles; determine whether a squeezing candidate vehicle having a possibility to squeeze before the host vehicle presents; calculate, when the squeezing candidate vehicle is determined to present, a first appearance interval that increases according to a time elapsed from a time when the squeezing candidate vehicle is last determined to present; and cause the display unit to display a first blinking display when the squeezing candidate vehicle is determined to present. The electronic control unit is configured to reduce a number of blinks of the first blinking display when the first appearance interval is smaller than a first threshold as compared with a case when the first appearance interval is equal to or larger than the first threshold.

A movable carrier auxiliary system includes a state detecting device, a braking device, an environmental detecting device and an emergency brake controlling device. The state detecting device detects a movement state of a movable carrier. The environmental detecting device includes at least one image capturing module and an operation module. The brake controlling method thereof includes receive the movement state detected by the state detecting device, and deriving an operating distance based on the movement state with the operation module; capture the environmental image with the image capturing module; determine whether there is an obstruction within the operating distance based on the environmental image; automatically actuate the braking device with the emergency brake controlling device when there is the obstruction within the operating distance in the environmental image, thereby to stop the movable carrier within the operating distance.

A vision system of a vehicle includes a plurality of cameras disposed at a vehicle and having a field of view exterior of the vehicle. A display device is operable to display images for viewing by a driver of the vehicle. The plurality of cameras includes a master camera and at least one slave camera. The at least one slave camera communicates a signal to the master slave camera representative of image data captured by the at least one slave camera. The master camera includes an image signal processor for processing image data captured by at least the master camera. The master camera includes a view generator operable to generate images for display by the display device, with the generated images derived from image data captured by the master camera and the signal communicated by the at least one slave camera.

An obstacle alert device is capable of indicating clearly presence of an obstacle approaching a vehicle to a driver, without impairing visibility of a peripheral situation of the vehicle. The device includes a photographed image acquisition section acquiring a photographed image photographing a scene in the periphery of the vehicle, a photographed-image-of-interest generation section generating a photographed image of interest based on the photographed image, a masked region setting section setting a masked region making undisplayed at least a portion of the scene of the vehicle periphery in the photographed image of interest, an object presence determination section determining whether an object is present or not in an outside region outside the photographed image of interest, and a masked-region highlighted-displaying section causing the masked region to be displayed with highlight when an object in the outside region has entered a region corresponding to the photographed image of interest.

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.