A method of processing an image using a camera of a vehicle includes: a first operation of controlling a road wheel of the vehicle according to an imaging mode selected by a user from among a plurality of imaging modes, and a second operation of generating an image according to the imaging mode selected by the user by using the camera while the road wheel of the vehicle is controlled.

Disclosed are a system and method for controlling a vehicle. The system includes a vehicle that obtains driving information and a blind spot image, and transmits the driving information and the blind spot image, and a wearable device that receives the driving information and the blind spot image from the vehicle, and outputs the blind spot image based on the driving information and gaze information of a driver.

Disclosed are a system and method for controlling a vehicle. The system includes a vehicle that obtains driving information and a blind spot image, and transmits the driving information and the blind spot image, and a wearable device that receives the driving information and the blind spot image from the vehicle, and outputs the blind spot image based on the driving information and gaze information of a driver.

An apparatus including a capture device and one or more sensors. The capture device may be configured to operate in a standby mode of operation until a wakeup signal is received and operate in video capture mode of operation in response to the wakeup signal. The sensors may each be configured to detect a trigger condition and communicate the wakeup signal in response to detecting the trigger condition. The capture device may be configured to consume a first amount of power in the standby mode of operation and a second amount of power in the video capture mode of operation. The first amount of power may be less than the second amount of power. The capture device may be configured to generate pixel data in the video capture mode of operation. Each of the sensors may be remotely located on a vehicle with respect to the capture device.

A system may include a display and a processor communicatively coupled to the display. The processor may be configured to: generate a synthetic vision system (SVS) taxi mode exocentric view of an aircraft when the aircraft is performing taxi operations and when the aircraft is on ground, wherein the SVS taxi mode exocentric view includes at least one range ring centered around a depiction of the aircraft, each of the at least one range ring providing a visual indication of a given range between the aircraft and a given range ring; and output, to the display, the SVS taxi mode exocentric view. The display may be configured to: display the SVS taxi mode exocentric view.

A system may include a display and a processor communicatively coupled to the display. The processor may be configured to: generate a synthetic vision system (SVS) taxi mode exocentric view of an aircraft when the aircraft is performing taxi operations and when the aircraft is on ground, wherein the SVS taxi mode exocentric view includes at least one range ring centered around a depiction of the aircraft, each of the at least one range ring providing a visual indication of a given range between the aircraft and a given range ring; and output, to the display, the SVS taxi mode exocentric view. The display may be configured to: display the SVS taxi mode exocentric view.

The present disclosure relates to an image processing device, an image processing method, a program, and an image presentation system capable of presenting a more suitable image to the interior of a vehicle.

An image processing unit generates a presentation image to be presented to the interior of a second vehicle that is traveling, on the basis of a vehicle external image obtained by capturing an environment outside a first vehicle that is traveling. The present disclosure can be applied to, for example, a projector type presentation device.

The present disclosure relates to an image processing device, an image processing method, a program, and an image presentation system capable of presenting a more suitable image to the interior of a vehicle.

An image processing unit generates a presentation image to be presented to the interior of a second vehicle that is traveling, on the basis of a vehicle external image obtained by capturing an environment outside a first vehicle that is traveling. The present disclosure can be applied to, for example, a projector type presentation device.

A vehicle display control device includes: a locus determination unit determining a predicted locus of a wheel of a subject vehicle according to a steering angle of the subject vehicle; and a display processing unit displaying an image of a field view of the subject vehicle including a vehicle body of the subject vehicle on a display device, and the display processing unit superimposes the guide line indicating the predicted locus determined by the locus determination unit on the image of the field view regardless of the steering angle of the subject vehicle, while semi-transparently displaying a portion of the guide line which overlaps with the vehicle body, thereby allowing visibility of the vehicle body.

A vehicle display control device includes: a locus determination unit determining a predicted locus of a wheel of a subject vehicle according to a steering angle of the subject vehicle; and a display processing unit displaying an image of a field view of the subject vehicle including a vehicle body of the subject vehicle on a display device, and the display processing unit superimposes the guide line indicating the predicted locus determined by the locus determination unit on the image of the field view regardless of the steering angle of the subject vehicle, while semi-transparently displaying a portion of the guide line which overlaps with the vehicle body, thereby allowing visibility of the vehicle body.