360-DEG holographic real-time interactive method

Abstract

The invention discloses a 360-DEG holographic real-time interactive method, used for solving the following problems in the prior art: holographic reappeared contents are limited; interactive operation cannot be carried out, etc. The 360-DEG holographic real-time interactive method comprises real-time information acquiring, real-time information processing, real-time information reappearing and real-time interacting, wherein real-time information acquiring is as follows: users and environmental information are acquired in multiple directions, such that corresponding audio and video information is obtained; real-time information processing is as follows: video information obtained in each direction is subjected to moving object segmentation and extraction; segmented and extracted frame images are spliced in real time, such that data basis for reappearing of holographic real images and virtual images is realized; real-time information reappearing is as follows: reappearing of the holographic images is realized according to data after real-time information processing; real-time interacting is as follows: a mapping relationship in three interactive modes including a voice interactive mode, an interactive guide mode and a posture interactive mode is established; change of the holographic images is realized through identification of voice and gestures; and thus, interaction is realized. According to the 360-DEG holographic real-time interactive method disclosed by the invention, a 360-DEG holographic display technology is combined with a novel interactive technology; and thus, multi-technology fusion is realized.

Description

technical field [0001] The present invention relates to the technical field of holographic interaction, in particular to a 360° holographic real-time interaction method. Background technique [0002] There are two existing holographic interactive technology methods, one is to pre-obtain the digital holographic image sequence of the scene by calculating the holographic, and then load the corresponding holographic image according to the detected posture information to achieve the dynamic interactive display effect of the digital holographic image. Holographic interaction; the other is to perform virtual modeling on the basis of 360° holographic display, remove the texture and splicing to obtain a preset holographic image, and the user can get information from several angles of the holographic image around the cabinet. [0003] The disadvantages of these two holographic interaction technology methods are: the first holographic interaction technology method can only interact wit...

AI Technical Summary

Problems solved by technology

[0003] The disadvantages of these two holographic interaction technology methods are: the first holographic interaction technology method can only interact with the hologram sequence of the pre-obtained scene, which will limit the content of holographic reproduction, and has strong fixity and singleness. nature, and most of them are in the experimental stage, and cannot be launched at this stage

The second holographic interactive technology method can only realize holographic reproduction of pre-modeled images, but cannot perform interactive operations such as switching, zooming, and rotating holographic images.

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