A vehicle safety support system is provided. The vehicle safety support system according to some embodiments of the present disclosure can track and display the location of the object related to the vehicle, thereby assisting objects surrounding the vehicle to recognize the object related to the vehicle. Accordingly, it is possible to support the object related to the vehicle to safely get on and off the vehicle. Further, the vehicle safety support system according to some embodiments of the present disclosure can support the objects around the vehicle to perform safe passage or safe driving by providing various types of information related to the vehicle through an external display.

A vehicle display control device, that acquires a peripheral situation of a host vehicle via a sensor; and, at a time of displaying an image showing the peripheral situation of the host vehicle at a display provided at a periphery of a driver's seat of the host vehicle, in a case in which an attribute of an object positioned at a periphery of the host vehicle is unclear, displays the object in a manner expressing that the attribute has not been confirmed, up until the attribute is confirmed.

A vehicle display control device, that acquires a peripheral situation of a host vehicle via a sensor; and, at a time of displaying an image showing the peripheral situation of the host vehicle at a display provided at a periphery of a driver's seat of the host vehicle, in a case in which an attribute of an object positioned at a periphery of the host vehicle is unclear, displays the object in a manner expressing that the attribute has not been confirmed, up until the attribute is confirmed.

A display system includes an attitude detection device configured to detect an attitude change amount of a moving body, and a correction processing device including a vibration detector configured to determine whether or not an attitude change in the moving body having a specific frequency band component has been continuously generated based on the attitude change amount. The correction processing device updates a correction amount of a display position of the image based on the attitude change amount when the vibration detector determines that the attitude change having the specific frequency band component has not been continuously generated, and sets an absolute value of the correction amount to be equal to or less than an absolute value of a correction amount at a time of last determination when the vibration detector determines that the attitude change having the specific frequency band component has been continuously generated.

A display system includes an attitude detection device configured to detect an attitude change amount of a moving body, and a correction processing device including a vibration detector configured to determine whether or not an attitude change in the moving body having a specific frequency band component has been continuously generated based on the attitude change amount. The correction processing device updates a correction amount of a display position of the image based on the attitude change amount when the vibration detector determines that the attitude change having the specific frequency band component has not been continuously generated, and sets an absolute value of the correction amount to be equal to or less than an absolute value of a correction amount at a time of last determination when the vibration detector determines that the attitude change having the specific frequency band component has been continuously generated.

A head-up display driving module includes an aspheric mirror, a driver including a motor to rotate the aspheric mirror by raising or lowering a link part on a lead screw, a lead screw bracket to fix the lead screw, the lead screw bracket attached to a front motor mount of the motor, a damping member fixedly disposed, using shoulder bolts, between the lead screw bracket and the front motor mount, a rear motor mount at a rear of the motor, a plurality of absorbers disposed at the rear motor mount, the plurality of dynamic vibration absorbers protruding forward from the rear motor mount, and a coupling including a driving hub connected to the rotation shaft of the motor, a driven hub coupled to the lead screw, and a spacer disposed between the driving hub and the driven hub, wherein the spacer or the driven hub includes an inertial body.

A head-up display driving module includes an aspheric mirror, a driver including a motor to rotate the aspheric mirror by raising or lowering a link part on a lead screw, a lead screw bracket to fix the lead screw, the lead screw bracket attached to a front motor mount of the motor, a damping member fixedly disposed, using shoulder bolts, between the lead screw bracket and the front motor mount, a rear motor mount at a rear of the motor, a plurality of absorbers disposed at the rear motor mount, the plurality of dynamic vibration absorbers protruding forward from the rear motor mount, and a coupling including a driving hub connected to the rotation shaft of the motor, a driven hub coupled to the lead screw, and a spacer disposed between the driving hub and the driven hub, wherein the spacer or the driven hub includes an inertial body.

A virtual image display device is configured to display a virtual image and includes an actuator and at least one of a circuit and a processor. The actuator switches a position of a display area between a first position and a second position. The at least one of the circuit and the processor is configured to display the virtual image of a corresponding content for each of the first position and the second position according to switching of the position of the display area by the actuator. The content for the second position includes a filled background. The at least one of the circuit and the processor is configured to limit a display duration of the filled background on displaying the filled background at the second position.

A virtual image display device is configured to display a virtual image and includes an actuator and at least one of a circuit and a processor. The actuator switches a position of a display area between a first position and a second position. The at least one of the circuit and the processor is configured to display the virtual image of a corresponding content for each of the first position and the second position according to switching of the position of the display area by the actuator. The content for the second position includes a filled background. The at least one of the circuit and the processor is configured to limit a display duration of the filled background on displaying the filled background at the second position.

A head-up display (HUD) including a direction-information generator, a shift device, and a display system. The direction-information generator generates direction information to be superimposed on a road surface ahead of a vehicle on which the HUD is mounted. The direction information represents a direction of travel to be followed by the vehicle. The shift device shifts at least some of the direction-change information into the display area when the direction information includes direction-change information to represent a change in the direction of travel and the direction-change information falls outside a display area. The display system displays the direction information within the display area as a virtual image.