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Immersive man-machine interaction-based vehicle maneuverability simulation system and method

A human-computer interaction and immersive technology, applied in the field of military training equipment, can solve problems such as weak immersion, poor training personnel experience, inconsistency, etc., to achieve enhanced training effects, consistent dynamic calculation results, and enhanced driving immersion. Effect

Inactive Publication Date: 2021-07-30
XUZHOU JIUDING ELECTROMECHANICAL FACTORY
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  • Abstract
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AI Technical Summary

Problems solved by technology

In this mode of operation, the immersion is not strong, the field of view of driving, shooting, and the vehicle commander does not change, and it is not completely consistent with the field of view of the real vehicle. The dynamic experience in the cockpit remains unchanged, and the vehicle dynamics calculation results are inconsistent with the driving experience. As a result, there is a gap between the experience of using the simulator to train and the real vehicle, which is not conducive to the rapid formation of combat effectiveness of the troops, and makes the experience of the trainers poor

Method used

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  • Immersive man-machine interaction-based vehicle maneuverability simulation system and method

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Embodiment Construction

[0020] The present invention will be further described below in conjunction with accompanying drawing.

[0021] Such as figure 1 As shown, the vehicle mobility simulation method based on immersive human-computer interaction includes an input system, a vehicle dynamics model library and an output system all installed on the interaction framework;

[0022] The interaction frame is the basic frame of this algorithm, and the driver's cockpit is placed on the interaction frame;

[0023] The input system includes a positioning module and an action recognition module; the positioning module is used to convert the position information of the driver's head and hands or feet received by the external device into structured data that can be recognized by the software; the action recognition module is used to convert the external device The driver's hand or foot movement signals collected by the device are resolved into the types of movements that the software can use;

[0024] The posit...

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Abstract

The invention discloses a vehicle maneuverability simulation method based on immersive man-machine interaction. An input system, a vehicle dynamics model database and an output system which are all installed on an interaction frame are included, wherein the input system comprises a positioning module and an action recognition module which are respectively connected with the vehicle dynamics model database; the vehicle dynamics model database loads and operates corresponding mathematical models to complete vehicle virtual motion according to different selected vehicle models; the output system comprises a virtual scene rendering module and a virtual cockpit simulation model database; and the virtual cockpit simulation model database and the virtual scene rendering module are respectively connected with the vehicle dynamics model database. According to the immersive man-machine interaction-based vehicle maneuverability simulation system and method, a driver can have a real experience feeling in the whole real vehicle cab, driving immersion feeling is enhanced, the dynamic matching feeling of the in-vehicle environment and the out-vehicle scene, the dynamic operation result and the driving feeling are more consistent, and the training effect of the driver is enhanced.

Description

technical field [0001] The invention relates to the field of military training equipment, in particular to a vehicle mobility simulation system and method based on immersive human-computer interaction. Background technique [0002] In order to meet the needs of military training, the troops are equipped with various types of driving simulation training equipment, and most of the existing simulation training equipment adopts the semi-physical simulation operation mode. In this mode of operation, the immersion is not strong, the field of view of driving, shooting, and the vehicle commander does not change, and it is not completely consistent with the field of view of the real vehicle. The dynamic experience in the cockpit remains unchanged, and the vehicle dynamics calculation results are inconsistent with the driving experience. As a result, there is a gap between the experience of using the simulator and the real vehicle, which is not conducive to the rapid formation of comb...

Claims

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Application Information

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IPC IPC(8): G09B9/052G06K9/00G06F30/20
CPCG09B9/052G06F30/20G06F2119/14G06V40/20
Inventor 刘钱
Owner XUZHOU JIUDING ELECTROMECHANICAL FACTORY
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