A display device capable of automatically switching display of a stereoscopic image and a display of a planar image according to a detected situation of a user is provided. Provided is the display device including a display unit capable of displaying a planar image and a stereoscopic image, and a control unit configured to automatically switch an image to be displayed on the display unit to the planar image or the stereoscopic image, using a detected state of the user.

A display device capable of automatically switching display of a stereoscopic image and a display of a planar image according to a detected situation of a user is provided. Provided is the display device including a display unit capable of displaying a planar image and a stereoscopic image, and a control unit configured to automatically switch an image to be displayed on the display unit to the planar image or the stereoscopic image, using a detected state of the user.

A system for display three dimensional content on a display.

A system for display three dimensional content on a display.

A first stereoscopic image display device includes a light guide plate having a plurality of reflectors and causes an observer to recognize an undistorted stereoscopic image even when the observer views a stereoscopic image from a high angle with respect to a direction normal to the front surface of the light guide plate. In a plan view from a direction vertical to an outgoing surface, when four quadrants are specified for each of the reflectors, the four quadrants taking a position of each of the reflectors as an origin, the four quadrants being divided by two straight lines orthogonal to each other and inclined 45° with respect to a direction in which the incident light is incident on each of the reflectors, light changed in the optical path by each of the reflectors is emitted to a quadrant adjacent to a quadrant on which incident light is incident.

A first stereoscopic image display device includes a light guide plate having a plurality of reflectors and causes an observer to recognize an undistorted stereoscopic image even when the observer views a stereoscopic image from a high angle with respect to a direction normal to the front surface of the light guide plate. In a plan view from a direction vertical to an outgoing surface, when four quadrants are specified for each of the reflectors, the four quadrants taking a position of each of the reflectors as an origin, the four quadrants being divided by two straight lines orthogonal to each other and inclined 45° with respect to a direction in which the incident light is incident on each of the reflectors, light changed in the optical path by each of the reflectors is emitted to a quadrant adjacent to a quadrant on which incident light is incident.

The disclosure relates to a switching process for switching in an autostereoscopic display device from a first view mode to a second view mode, wherein the autostereoscopic display device comprises a display panel, a lenticular device and means for applying a voltage, the process comprising the application of a switching voltage across both switching electrodes of the lenticular device wherein a ramp voltage is applied that increases during a ramp period of at least 0.50 second from a starting voltage at which the lenticular device is in its, first view mode to a final voltage at which the lenticular device is in its second view mode, wherein during at least 0.40 second of the ramp period, the ramp voltage is at an intermediate voltage that is in the range of 5-60% of the minimal voltage; and the final voltage is equal to or higher than minimal voltage.

The disclosure relates to a switching process for switching in an autostereoscopic display device from a first view mode to a second view mode, wherein the autostereoscopic display device comprises a display panel, a lenticular device and means for applying a voltage, the process comprising the application of a switching voltage across both switching electrodes of the lenticular device wherein a ramp voltage is applied that increases during a ramp period of at least 0.50 second from a starting voltage at which the lenticular device is in its, first view mode to a final voltage at which the lenticular device is in its second view mode, wherein during at least 0.40 second of the ramp period, the ramp voltage is at an intermediate voltage that is in the range of 5-60% of the minimal voltage; and the final voltage is equal to or higher than minimal voltage.

The present disclosure relates to an information processing apparatus and method that allows a stream of sub-pictures to be more easily selected. A control file is generated that manages image encoded data for each of a plurality of sub-pictures into which an entire picture is divided and which is then encoded, the control file including region-related information related to a region in the entire picture corresponding to the sub-picture, as information different from arrangement information for each of picture regions, the control file being used for controlling distribution of the image encoded data. The present disclosure can be applied to, for example, an information processing apparatus, an image processing apparatus, an image encoding apparatus, a file generating apparatus, a file transmission apparatus, a distribution apparatus, a file reception apparatus, an image decoding apparatus, or a reproduction apparatus.

A system and computer-implemented method (s) are described which provide a backward-compatible way of outputting 3D image content by an application. Namely, the application may output the 3D image content as a primary view comprising 2D image data and a secondary view comprising 3D-enabling auxiliary data. The application may mutually arrange both views such that a ‘legacy’ 2D display server component for a 2D display omits drawing, or overdraws, the secondary view when compositing the at least two views into a display signal, while a 3D display server component may access the 3D-enabling auxiliary data in the secondary view and process the 2D image data and the 3D-enabling auxiliary data appropriately.