High-fidelity near-reality immersive panoramic parachuting simulator

An immersive, simulator technology, applied to simulators, instruments, aerospace equipment, etc., can solve problems such as the difficulty of simulating the weightlessness of skydiving

Pending Publication Date: 2020-12-25
孙磊 +2
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Problems solved by technology

[0004] Indoor simulation of high-altitude skydiving is a difficult point in simulated skydiving. Existing solutions and products are difficult to simulate the weightlessness of actual skydiving

Method used

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  • High-fidelity near-reality immersive panoramic parachuting simulator

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Embodiment Construction

[0023] In order to make the object, technical solution and advantages of the present invention clearer, the present invention will be described in further detail below in conjunction with the embodiments and accompanying drawings. Here, the exemplary embodiments and descriptions of the present invention are used to explain the present invention, but not to limit the present invention.

[0024] This embodiment provides a high-fidelity near-realistic immersive panoramic skydiving simulator, which will effectively combine the immersive virtual skydiving technology based on virtual reality and the high-fidelity simulated skydiving technology based on the vertical wind tunnel to construct a virtual skydiving subsystem and a vertical wind tunnel subsystem. , to achieve different stages and different experience-specific simulations, the organic combination of virtual and real, to simulate the weightlessness of actual skydiving, and improve the integrated simulation level of skydiving....

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Abstract

The invention relates to a high-fidelity near-reality immersive panoramic parachuting simulator, a simulation environment capable of obtaining the experience conforming to the experience of the real parachuting process is constructed by combining a self-researched self-adaptive servo parachute cord system based on the virtual reality technology and a vertical wind tunnel technology, and the visualsense, the auditory sense, the dynamic sense, the force sense and the speed sense in the parachuting process are reflected. The high-fidelity near-reality immersive panoramic parachuting simulator iscomposed of a virtual parachuting subsystem and a vertical wind tunnel subsystem. The virtual parachuting subsystem provides an advanced and vivid analog simulation environment, and a player wears virtual reality glasses to practice parachuting in various virtual environments. By realistically simulating the control process and response characteristics of the parachute canopy and feeding back toa player in real time, the player can obtain dynamic and force feelings with the same characteristics as the real parachuting process. The vertical wind tunnel subsystem is based on canopy manipulation modeling and simulation under complex meteorological conditions, simulates the parachuting process vividly by manually controlling airflow, is used for simulating attitude control in the air beforeparachute opening, and presents vivid aerodynamic parachuting experience.

Description

technical field [0001] The present invention relates to the fields of commerce, education, entertainment, teaching, etc. related to virtual reality and artificial intelligence. The present invention provides a high-fidelity near-realistic immersive panoramic skydiving simulator, which is based on virtual reality technology and vertical wind tunnel technology, combined with self-developed The self-adaptive servo parachute system constructs a simulation environment that can obtain the experience consistent with the real skydiving process, reflecting the vision, hearing, movement, force, and speed during the skydiving process. The high-fidelity near-realistic immersive panoramic skydiving simulator consists of a virtual skydiving subsystem and a vertical wind tunnel subsystem. The virtual skydiving sub-system uses a film and television-level rendering engine to provide an advanced and realistic simulation environment for virtual skydiving. It is mainly used for skydiving procedur...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G09B9/00
CPCG09B9/00
Inventor 孙磊匡敏驰朱纪洪
Owner 孙磊
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