Physical Activity and Quality of Life Research Group (AFYCAV), Faculty of Sport Science, University of Extremadura, 10003 Cáceres, Spain.
Faculty of Sport Science. University of Extremadura. Avda: Universidad S/N, Cáceres 10003, Spain.
Physiol Behav. 2021 Sep 1;238:113483. doi: 10.1016/j.physbeh.2021.113483. Epub 2021 Jun 10.
To analyze the psychophysiological response during takeoff, landing, air-air attack and air-ground attack maneuvers.
A total of 11 expert pilots (age=33.36 (5.37)) from the Spanish Air Force participated in this cross-sectional study. Participants had to complete in a flight simulator the following missions: 1) takeoff; 2) Air-air attack; 3) Air-Ground attack, and 4) Landing. The electroencephalographic activity (EEG) and heart rate variability (HRV) were collected during all these maneuvers.
Significant higher values of theta (during takeoff, air-air attack and air-ground attack) EEG power spectrum were obtained when compared to baseline. Significant difference in the P3 scalp location was observed between landing and takeoff maneuvers in the beta EEG power spectrum. Furthermore, significant lower values of HRV were obtained during takeoff, landing, air-air attack and air-ground attack when compared to baseline values. Also, landing showed a higher sympathetic response when compared to takeoff maneuver.
Takeoff, landing, air-air attack or air-ground attack maneuvers performed in a flight simulator produced significant changes in the electroencephalographic activity and autonomic modulation of professional pilots. Beta EEG power spectrum modifications suggest that landing maneuvers induced more attentional resources than takeoff. In the same line, a reduced HRV during landing was obtained when compared to takeoff. These results should be considered to training purposes.
分析起飞、着陆、空对空攻击和空对地攻击机动过程中的心理生理反应。
共有 11 名来自西班牙空军的专家飞行员(年龄=33.36(5.37))参与了这项横断面研究。参与者必须在飞行模拟器中完成以下任务:1)起飞;2)空对空攻击;3)空对地攻击;4)着陆。在所有这些机动过程中,都采集了脑电图活动(EEG)和心率变异性(HRV)。
与基线相比,起飞、空对空攻击和空对地攻击时 EEG 功率谱中的θ值显著升高。在β EEG 功率谱中,着陆和起飞之间的头皮位置 P3 存在显著差异。此外,与基线值相比,起飞、着陆、空对空攻击和空对地攻击时 HRV 值显著降低。此外,与起飞机动相比,着陆显示出更高的交感神经反应。
在飞行模拟器中进行的起飞、着陆、空对空攻击或空对地攻击机动会导致专业飞行员的脑电图活动和自主调节发生显著变化。β EEG 功率谱的变化表明,着陆机动比起飞机动需要更多的注意力资源。同样,与起飞相比,着陆时 HRV 降低。这些结果应考虑用于培训目的。
