A viewing system provides a viewing user with an experience of viewing a content that presents a character whose behaviors are controlled based on physical motions of a performer, the content being a binocular stereopsis content that presents staging in a 3D space in which a first character associated with a first performer and a second character associated with a second performer are arranged. The first character is arranged in a first region in the space, a viewpoint associated with the viewing user and the second character are arranged in a second region in the space. The system controls behaviors of the first character based on first motion information of the first performer, and controls behaviors of the second character based on at least one of second motion information of the second performer and information of an operational input performed by the viewing user.

A viewing system provides a viewing user with an experience of viewing a content that presents a character whose behaviors are controlled based on physical motions of a performer, the content being a binocular stereopsis content that presents staging in a 3D space in which a first character associated with a first performer and a second character associated with a second performer are arranged. The first character is arranged in a first region in the space, a viewpoint associated with the viewing user and the second character are arranged in a second region in the space. The system controls behaviors of the first character based on first motion information of the first performer, and controls behaviors of the second character based on at least one of second motion information of the second performer and information of an operational input performed by the viewing user.

Described herein are system and methods to improve the image quality of a multiview image. In some embodiments a zero disparity plane image is generated based on a view of a multiview by identifying portions of the multiview image that correspond to the zero disparity plane. The zero disparity plane image and view images of the multiview image may be transmitted to a time-multiplexed display. The time-multiplexed display may operate according to a two-dimensional (2D) mode and a multiview mode. The time-multiplexed display may be configured to display the zero disparity plane image and the view images as a composite image.

A display device includes: a display panel configured to display a parallax image including a first image to be viewed by a first eye of a user and a second image to be viewed by a second eye of the user; and an optical member including a plurality of optical elements arranged along a predetermined direction which includes a component in a parallax direction of the first eye and the second eye. A beam direction of the parallax image is defined by the plurality of optical elements. The display panel includes a plurality of subpixels including a plurality of minipixel. Each of the minipixels included in the plurality of subpixels is configured to be able to display different images.

A display device includes: a display panel configured to display a parallax image including a first image to be viewed by a first eye of a user and a second image to be viewed by a second eye of the user; and an optical member including a plurality of optical elements arranged along a predetermined direction which includes a component in a parallax direction of the first eye and the second eye. A beam direction of the parallax image is defined by the plurality of optical elements. The display panel includes a plurality of subpixels including a plurality of minipixel. Each of the minipixels included in the plurality of subpixels is configured to be able to display different images.

An embodiment relates to an electronic device for synthesizing a two-dimensional object with a three-dimensional object. The electronic device may comprise a display, a memory, and at least one processor electrically connected to the display and the memory, wherein the processor may be configured to: control the display to display a three-dimensional object, at least one two-dimensional object, and at least one first button corresponding to the at least one two-dimensional object; in response to an input for selection of the at least one first button, associate the at least one two-dimensional object with a part of the three-dimensional object so that the at least one two-dimensional object moves in response to movement of the part of the three-dimensional object; and generate a first synthetic image including the three-dimensional object and the at least one two-dimensional object associated with the part of the three-dimensional object.

A method for seamless transition from a 2D surround view to a 3D surround view. The method includes initializing the 2D-SRV processing chain, displaying the 2D surround view while waiting for HLOS handshake to complete and upon completion of a HLOS handshake, initializing a 3D-SRV processing chain and waiting for a 3D-SRV buffer output; disabling the 2D-SRV display pipeline and enabling a 3D-SRV display pipeline; enabling switchback monitor; atomically switching to 3D surround view seamlessly and glitch free; and displaying 3D surround view on a monitor. Another method includes detecting a crash in a HLOS and seamlessly switching to a 2D surround view from a 3D surround view.

A method for seamless transition from a 2D surround view to a 3D surround view. The method includes initializing the 2D-SRV processing chain, displaying the 2D surround view while waiting for HLOS handshake to complete and upon completion of a HLOS handshake, initializing a 3D-SRV processing chain and waiting for a 3D-SRV buffer output; disabling the 2D-SRV display pipeline and enabling a 3D-SRV display pipeline; enabling switchback monitor; atomically switching to 3D surround view seamlessly and glitch free; and displaying 3D surround view on a monitor. Another method includes detecting a crash in a HLOS and seamlessly switching to a 2D surround view from a 3D surround view.

In a remote control system including a user apparatus and a remote operation apparatus, the remote operation apparatus includes a first imaging device having a first viewing angle and a second imaging device having a second viewing angle that includes the first viewing angle and that is greater than the first viewing angle, and transmits a first video image obtained by the first imaging device and a second video image obtained by the second imaging device to the user apparatus via a network. The user apparatus combines the first video image and the second video image with their coordinate positions and time positions aligned to generate a third video image, and outputs the generated third video image to a display unit.

In a remote control system including a user apparatus and a remote operation apparatus, the remote operation apparatus includes a first imaging device having a first viewing angle and a second imaging device having a second viewing angle that includes the first viewing angle and that is greater than the first viewing angle, and transmits a first video image obtained by the first imaging device and a second video image obtained by the second imaging device to the user apparatus via a network. The user apparatus combines the first video image and the second video image with their coordinate positions and time positions aligned to generate a third video image, and outputs the generated third video image to a display unit.