Multi-Physics Simulation System for High-Altitude Stress Induction Based on Virtual-Reality Integration
In order to address the current scarcity of initial training methods for high-altitude workers and concerns about safety,a virtuality-reality combination-based high-altitude stress induction system was developed.The system comprises modules of physical feedback,high-altitude virtual scenarios,and multi-dimensional data transmission.The plank module is designed with an inclination angle and subjected to static stress load simulations,ensuring system safety while enhancing the intensity of high-altitude stress.Fog particle effects are constructed to eliminate the exposure of boundary lines in high-altitude virtual scenes.Additionally,we reduced rendering content to improve frame rates.The system's efficacy was validated through an experiment involving five volunteers wearing smart clothing to collect physiological data.The results indicate that,compared to other high-altitude stress paradigms,this system elicits a higher degree of psychological stress,making it suitable for high-altitude stress training and child fall prevention education.
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