An electrically controlled spectacle includes a spectacle frame and optoelectronic lenses housed in the frame. The lenses include a left lens and a right lens, each of the optoelectrical lenses having a plurality of states, wherein the state of the left lens is independent of the state of the right lens. The electrically controlled spectacle also includes a control unit housed in the frame, the control unit being adapted to control the state of each of the lenses independently.

A request to convert a two-dimensional image to a three-dimensional image may be received. A feature-to-depth mapping function associated with another three-dimensional image that shares a characteristic with the two-dimensional image that is to be converted to the three-dimensional image may be identified. A depth value for a plurality of pixels of the two-dimensional image may be determined based on the feature-to-depth mapping function associated with the other three-dimensional image. The three-dimensional image may be generated based on the depth value for the plurality of pixels of the two-dimensional image.

A method of processing data includes obtaining, by an encoding medium, the data of at least one of a geometry information or a texture information of a target. The method additionally includes converting, by the encoding medium, the geometry information into a plurality of periodical functions. Additionally, converting, by the encoding medium, the texture information into a second 2-D representation. Further, the method includes converting, by the encoding medium, each periodical function of the plurality of periodical functions and the second 2-D representation into an image. Moreover, the method includes decoding, by a decoding medium, the image into a 3-D representation using a transformation.

A method of processing data includes obtaining, by an encoding medium, the data of at least one of a geometry information or a texture information of a target. The method additionally includes converting, by the encoding medium, the geometry information into a plurality of periodical functions. Additionally, converting, by the encoding medium, the texture information into a second 2-D representation. Further, the method includes converting, by the encoding medium, each periodical function of the plurality of periodical functions and the second 2-D representation into an image. Moreover, the method includes decoding, by a decoding medium, the image into a 3-D representation using a transformation.

A device implementing a system for managing multi-modal rendering of application content includes at least one processor configured to receive content, provided by an application running on a device, for displaying in a three-dimensional display mode. The at least one processor is further configured to determine that the content corresponds to two-dimensional content. The at least one processor is further configured to identify a portion of the two-dimensional content for enhancement by a three-dimensional render. The at least one processor is further configured to enhance, in response to the determining, the portion of the two-dimensional content by the three-dimensional renderer. The at least one processor is further configured to provide for display of the enhanced portion of the two-dimensional content on a display of the device in the three-dimensional display mode.

A device implementing a system for managing multi-modal rendering of application content includes at least one processor configured to receive content, provided by an application running on a device, for displaying in a three-dimensional display mode. The at least one processor is further configured to determine that the content corresponds to two-dimensional content. The at least one processor is further configured to identify a portion of the two-dimensional content for enhancement by a three-dimensional render. The at least one processor is further configured to enhance, in response to the determining, the portion of the two-dimensional content by the three-dimensional renderer. The at least one processor is further configured to provide for display of the enhanced portion of the two-dimensional content on a display of the device in the three-dimensional display mode.

A method and an apparatus for generating a pair of images consisting of a dominant image to be displayed to a dominant eye and a nondominant image to be displayed to a nondominant eye causes a user to perceive a three-dimensioned image. The apparatus is configured to perform the method initiated by receiving the dominant image in a dominant image buffer. A skewing engine performs a skewing transformation; a rotating engine performs a rotating transformation; and a translating engine performs a translating and scaling transformation thereby to produce the nondominant image for storage in the nondominant image buffer.

A method, computer program, and computer system is provided for streaming immersive media. The method includes ingesting content in a two-dimensional format; converting the ingested content to a three-dimensional format based on a neural network; and streaming the converted content to a client end-point.

A method, computer program, and computer system is provided for streaming immersive media. The method includes ingesting content in a two-dimensional format; converting the ingested content to a three-dimensional format based on a neural network; and streaming the converted content to a client end-point.

A system for display three dimensional content on a display.