A vehicular vision system includes a rear backup camera and a controller having an image processor. A video display screen is disposed in the vehicle and viewable by a driver of the vehicle. With the vehicular vision system operating in a standard viewing mode, image data captured by the rear backup camera is processed to provide video images representative of a standard view rearward of the vehicle that is within the field of view of the rear backup camera. With the vehicular vision system operating in a cross-traffic viewing mode, image data captured by the rear backup camera is processed at the image processor to provide video images derived from the processed captured image data that are representative of a wider angle view rearward of the vehicle that has a wider angle view than the standard view rearward of the vehicle.

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 method for operating a steering system of a vehicle, wherein an actuator is provided for generating a moment at a steering handle of the vehicle, wherein the following steps are carried out: generating the moment up to a maximum moment if the maximum moment is enabled, and up to a lower limited moment if the maximum moment is limited, identifying a vehicle situation of the vehicle, enabling the maximum moment if the vehicle situation is identified as being a boarding and/or deboarding situation in order to brace the steering handle, and limiting the maximum moment if the vehicle situation is identified as being driving operation of the vehicle.

A trailer sideswipe avoidance system for a vehicle towing a trailer is disclosed. The trailer sideswipe avoidance system includes a sensor system configured to detect objects in an operating environment of the vehicle. The trailer sideswipe avoidance system may include a controller that processes information received from the sensor system to determine whether the object detected in the operating environment of the vehicle is in the travel path of the towed trailer. A visual display displays a trailer collision alert zone and a trailer collision avoidance zone. The position of the trailer collision avoidance zone on the visual display relative to the position of the trailer collision alert zone on the visual display directionally corresponds with a collision avoidance steering angle of the vehicle relative to a current steering angle of the vehicle when the controller determines that the object is in the travel path of the towed trailer.

A cruise-assist image generation device includes: a steering-angle information acquisition unit acquiring steering angle information of a steering wheel; an additional line generation unit generating a cruise assist additional line corresponding to the acquired steering angle information and formed by combination of a given number of segments; and an additional line superimposing unit superimposing the generated cruise assist additional line on a taken image of the vehicle periphery to obtain a composite image. The additional line generation unit generates respective curved lines forming part or all of the given number of segments by quadratic curve approximation using coordinate data corresponding to the acquired steering angle information and including coordinates of two endpoints and one middle point representing each segment, and generating respective straight lines forming the remains of the given number of segments by collinear approximation using coordinate data corresponding to the acquired steering angle information and including coordinates of two end points representing each segment.

A vehicular rear backup system includes a rear backup digital camera disposed at a vehicle and a display device having a video display screen disposed in an interior cabin of the vehicle and viewable by the driver of the vehicle. Rear backup video images that are derived from image data captured by the rear backup digital camera are displayed on the video display screen no later than two seconds after the driver of the vehicle first changes propulsion of the vehicle during a new ignition cycle to reverse mode to commence a first backup event. Until the first backup event is completed, the video display screen displays rear backup video images. During a backup event of the vehicle, image data captured by the rear backup digital camera is provided to and is processed by an image processor of the system to detect presence of an object rearward of the vehicle.

Aspects of the present disclosure relate generally to identifying and displaying traffic lanes that are available for autonomous driving. Information is displayed to a driver of a vehicle having an autonomous driving mode to inform the driver of where the autonomous driving mode can be used by visually distinguishing between lanes that are available for autodrive from those that are not, and when a lane is an autodrive lane the display includes information indicating how much further the vehicle may continue in the autonomous driving mode in that particular lane before requiring a particular maneuver to depart that lane in order to stay on a route. The display may also indicate the position of a lane (autodrive or not) currently occupied by the vehicle. The display may also display information indicating the remaining autodrive distance in other lanes as well as the lane with the greatest remaining autodrive distance.

A trailer flank object contact avoidance system for a vehicle towing a trailer includes a sensor system configured to detect objects in an operating environment of the vehicle and a controller. The controller processes information received from the sensor system to monitor a relative position of at least one object with respect to the vehicle during driving and determines an instantaneous path of the trailer based on a vehicle steering angle and whether the instantaneous path of the trailer would bring the trailer into contact with the at least one object. The controller issues a coaching notification to the driver that reverse driving is required to prevent contact between the trailer and the vehicle when a corrective steering angle cannot prevent contact of the trailer with the at least one object during forward driving.

A periphery monitoring device includes: an acquisition section acquiring a steering angle of a vehicle; an image acquisition section acquiring a captured image from an image capturing section that captures an image of a periphery of the vehicle; a detection section acquiring detection information of an object around the vehicle; and a control section causing a display section to display a synthesized image including a vehicle image showing the vehicle and a periphery image showing the periphery of the vehicle based on the captured image. When the object is detected on a course of the vehicle traveling at the steering angle by a predetermined distance, the control section causes a virtual vehicle image to be displayed in the synthesized image to be superimposed on a course to the object with a position of the vehicle as a reference.

A vehicle driver assist system provides for the location of a target feature in an initial image and updates the location of that target feature based on information indicative of vehicle dynamic operation. The system predicts a relative position of the target feature within subsequent images such that only a portion of subsequent images need by analyzed and searched.