Provided are an apparatus and method for monitoring driver's concentrativeness capable of monitoring whether a driver is concentratedly obtaining major information by tracing a driver's sight while a vehicle is running, in order to provide alarm to the driver when driver's concentrativeness is dropped at a time when the major information is changed while the vehicle is running.

The present disclosure relates to a method, a computer program comprising instructions and a device for reducing masking by a virtual image of a head-up display of a transport. The disclosure additionally relates to a head-up display for a transport in which such a method or such a device is used. In a first step, a horizon and/or a vanishing point is determined. Afterward, an image to be displayed is subdivided into a plurality of partial areas. In this case, the partial areas are trapezoidal and their size varies over the area of the image to be displayed. For the individual partial areas, masking areas are determined and checking is carried out to ascertain whether the determined masking area exceeds a permissible size for at least one of the partial areas. If this is the case, a warning signal is output. Finally, at least one measure for reducing the masking is implemented in response to the warning signal.

A display apparatus mountable on a mobile object, which: obtains a display location and a movement direction of a virtual object to be displayed in a display area of the display apparatus so as to be overlaid in a real world, the virtual object to be moved relative to movement of the mobile object; estimates a time it will take for the virtual object to move from the display location to a border of the display area, or a distance between the display location of the virtual object and the border of the display area, each based on the display location and the moving direction of the virtual object; determines a display form of the virtual object based on the estimated time or the estimated distance; and causes the virtual object be displayed in the determined display form, such that the virtual object changes the display form while moving in the display area.

The present invention relates to a rotating head-up display device, which includes a base, a rotating module, a display module and a reflective module,

The fixed portion of the rotating module fixed to the base and the rotating portion of the rotating module fixed to the display module are provided as image rotating mechanism, and the adjustment module is provided to operate for rotating and projecting enlarged images, to thereby conveniently rotate images corresponding to horizontal screen and vertical screen of a smartphone or a tablet.

An apparatus for controlling a head up display of a vehicle includes a navigation device that calculates a residual distance from a position of the vehicle to a driving direction change point, a display that displays vehicle information as an augmented reality image, and a controller that compares the residual distance with a preset distance, determines whether to correct the residual distance depending on a result of the comparison, corrects the residual distance based on an output height of the augmented reality image when correcting the residual distance, and sets a position spaced apart by the corrected residual distance from the position of the vehicle as a projected position of the augmented reality image.

A driving assistance apparatus includes a controller programmed to perform a deceleration assistance process of assisting in decelerating a vehicle before the vehicle arrives at a deceleration object, and to control a display apparatus to display, in a first display area, first notification information for notifying an occupant of the vehicle of the deceleration object that is a target for the deceleration assistance process. When a first object and a second object that is different from the first object are both detected as the deceleration object and the second object is the target for the deceleration assistance process but the first object is not the target for the deceleration assistance process, the controller is programmed to control the display apparatus to display, in a second display area, second notification information for notifying the occupant of the first object, the second display area is different from the first display area.

Positional correction of an image occurring along with detection of a shift in vertical eye position unintended by the user is suppressed. First image correction corrects the position of an image displayed on a display device based on a vertical eye position and a lateral eye position. Second image correction corrects the position of the image displayed on the display device based on the vertical eye position and the lateral eye position. A second correction amount to the position of the image with respect to the amount of change in the vertical eye position is smaller than a first correction amount to the position of the image with respect to the amount of change in the vertical eye position during the first image correction. A processor switches between the first image correction and the second image correction in accordance with whether a prescribed condition is satisfied.

Positional correction of an image occurring along with detection of a shift in vertical eye position unintended by the user is suppressed. First image correction corrects the position of an image displayed on a display device based on a vertical eye position and a lateral eye position. Second image correction corrects the position of the image displayed on the display device based on the vertical eye position and the lateral eye position. A second correction amount to the position of the image with respect to the amount of change in the vertical eye position is smaller than a first correction amount to the position of the image with respect to the amount of change in the vertical eye position during the first image correction. A processor switches between the first image correction and the second image correction in accordance with whether a prescribed condition is satisfied.

A vehicular three-dimensional head-up display includes a display device functioning as a light source; and a combiner for simultaneously reflecting light from the light source toward a driver's seat and transmitting light from the outside of a vehicle, and may include an optical configuration in which an image created by the light from the light source is displayed as a virtual image of a three-dimensional perspective laid to correspond to the ground in front of the vehicle.

A vehicular three-dimensional head-up display includes a display device functioning as a light source; and a combiner for simultaneously reflecting light from the light source toward a driver's seat and transmitting light from the outside of a vehicle, and may include an optical configuration in which an image created by the light from the light source is displayed as a virtual image of a three-dimensional perspective laid to correspond to the ground in front of the vehicle.