Abstract:
A stereoscopic imaging apparatus and method, a display, and a terminal are disclosed. A stereoscopic imaging apparatus (100) includes: a display panel (110), including a pixel array and configured to display images; and at least two lens layers (120, 130), disposed in a position corresponding to the pixel array, and configured to alternately deflect, according to applied time-multiplexing electric fields, light rays of the images displayed by all pixels (111 to 116) in the pixel array to at least four different projection directions, where a deflection angle corresponding to the at least four different projection directions is a sum of deflection angles of all of the at least two lens layers (120, 130), so that multiple persons can simultaneously view a three-dimensional stereoscopic image.
Abstract:
Embodiments of the present invention relate to a display apparatus including: a display layer including a pixel array, a first lens layer, and a second lens layer. The second lens layer is disposed between the first lens layer and the display layer. The first lens layer includes a first lens array, where the first lens array is configured to deflect lights passing through the first lens array in different projection directions, so as to achieve stereoscopic parallax. The second lens layer includes a second lens array, and the second lens array is configured to project beams, emitted from the pixel array, onto the first lens array. A structure of the display apparatus can reduce impact of a phenomenon of crosstalk between pixels of the display apparatus, thereby improving a resolution and a display effect of the display apparatus.
Abstract:
The present invention provides a stereoscopic imaging apparatus (100), including: a display module (130), including a display pixel layer (131) and a first substrate (132), where the display pixel layer (131) includes a pixel array (133), and the first substrate (132) is disposed on the display pixel layer (131); a second substrate (120), disposed opposite to the first substrate (132); and a first lens layer (110), including a lens array (111), where the first lens layer (110) is disposed between the first substrate (132) and the second substrate (120), and the lens array (111) is configured to receive light transmitted by the pixel array (133), and deflect light, which is transmitted by a corresponding pixel in the pixel array (133), to a different projection direction to implement stereoscopic parallax.
Abstract:
Embodiments of the present invention provide a method for presenting communication information in video communication, including: controlling collection of audio information and video information of a video communication site; determining a position of a speaker in the video communication site according to the audio information, where the speaker is a person of participants in the video communication site that speaks; acquiring speech video information from the video information according to the position of the speaker, where the speech video information is video information of the speaker within a speaking period; and controlling presentation of the speech video information.
Abstract:
The present invention discloses a method and an apparatus for detecting a convex polygon image block, and a device. The method includes: acquiring an image collected by an image sensor; acquiring a corner set, where the corner set includes a corner in the image, and the corner is an intersection point at which any two straight line sides that are not parallel to each other in the image intersect; and detecting a convex polygon image block in the image according to the corner set, where a shape of the convex polygon image block is a preset shape and a similarity between the convex polygon image block and a preset image block exceeds a preset first threshold. The apparatus includes: a first acquiring module, a second acquiring module, and a detecting module. In the present invention, the convex polygon image block can be detected from the image.