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Periscope simulation imaging method based on immersive man-machine interaction simulation system

A technology of human-computer interaction and simulation system, which is applied in the field of military training equipment, can solve the problems of insufficient three-dimensional, low-dimensional, and single images, and achieve the effects of improving authenticity and effect, expanding the field of vision, and enhancing immersion

Active Publication Date: 2021-07-30
徐州九鼎机电总厂
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Problems solved by technology

[0002] In order to meet the needs of military training, the troops have equipped the soldiers with various types of simulation training equipment such as driving, shooting, communication, and tactics. However, the periscope display methods in the armored equipment of the existing simulation training equipment are all flat-panel displays. Although the flat-panel displays can display A complete periscope picture is produced, but the picture is not three-dimensional enough, the dimension is low, and the displayed angle is relatively single compared with the real scene, which cannot provide enough immersion and the training effect is not good

Method used

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  • Periscope simulation imaging method based on immersive man-machine interaction simulation system
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  • Periscope simulation imaging method based on immersive man-machine interaction simulation system

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Embodiment Construction

[0027] The present invention will be described in further detail below in conjunction with the accompanying drawings.

[0028] Such as figure 1 As shown, the present invention uses an immersive human-computer interaction simulation system to realize the simulation of periscope imaging of armored equipment. The 3D image rendering module provides image rendering support for the virtual camera and VR display module, the spatial positioning module provides positioning data for the virtual camera and VR display module, and the virtual camera uses the rendering mechanism provided by the 3D image rendering module and the spatial positioning data provided by the spatial positioning module After obtaining the corresponding image, the optical imaging technology and image recognition technology are used to transfer the image to the periscope in the form of pixel stream mapping. The VR display module obtains the corresponding periscope imaging according to the rendering mechanism provided...

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Abstract

The invention discloses a periscope simulation imaging method based on an immersive man-machine interaction simulation system. The method comprises the following steps of 1, constructing a three-dimensional image rendering module, and achieving the construction of a virtual armored equipment environment; 2, constructing a laser positioning space structure by means of a space positioning technology; 3, a virtual camera being placed outside the armored equipment in the virtual space to serve as periscope rendering input, and the virtual camera receiving positioning data transmitted by the space positioning module and completing view finding of views observed by the periscope from different angles in combination with parameters of the virtual camera; and 4, transmitting an image of the virtual camera into the periscope in a pixel mapping mode by means of an optical imaging technology and an image recognition technology to complete imaging. The method is advantaged in that the three-dimensional imaging of the periscope scene in the armored equipment is realized, the visual field range which can be observed by the periscope is expanded, simulation authenticity is improved, training immersion is greatly enhanced, and the training authenticity and effect are improved.

Description

technical field [0001] The invention relates to the field of military training equipment, in particular to a periscope simulation imaging method based on an immersive human-computer interaction simulation system. Background technique [0002] In order to meet the needs of military training, the troops have equipped the soldiers with various types of simulation training equipment such as driving, shooting, communication, and tactics. However, the periscope display methods in the armored equipment of the existing simulation training equipment are all flat-panel displays. Although the flat-panel displays can display A complete periscope picture is produced, but the picture is not three-dimensional enough, the dimension is low, and the displayed angle is relatively single compared with the real scene, which cannot provide enough immersion and the training effect is not good. Contents of the invention [0003] In order to solve the above problems, the object of the present inve...

Claims

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Application Information

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IPC IPC(8): G09B9/00G06T15/00G06T19/00
CPCG09B9/003G06T15/005G06T19/003G06T2200/04
Inventor 李建伟
Owner 徐州九鼎机电总厂
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