Research on the influence mechanism of virtual reality technology on pilots' balance perception ability training

Abstract

In this paper, the differential equations of the six-degree-of-freedom motion of a rigid-body vehicle in the presence of wind perturbation are derived, and a virtual cockpit 3D model and human balance perception ability detection system are designed. Through theoretical modeling, platform implementation and empirical testing, the influence mechanism of virtual reality technology on pilots' balance perception ability is deeply analyzed. The mean data obtained from the reaction time test decreased by 49.3s in the experimental group and 18.5s in the control group after the experiment, and the independent sample t-test between the groups yielded a p-value of 0.024, which is a significant difference. The mean value of the number of correct tests per unit of time in the experimental group after training increased by 0.017 per second, and the control group increased by 0.006 per second, and the p-value of the independent samples T-test between the groups was 0.019, which is also a significant difference. Virtual reality technology strengthens the development of neuroplasticity of balance perception in pilots through highly immersive scene simulation with multimodal sensory synchronized feedback, which can significantly improve balance perception.