Stroud Kenneth J, Harm Deborah L, Klaus David M
Department of Aerospace Engineering Sciences, University of Colorado at Boulder, CO, USA.
Aviat Space Environ Med. 2005 Apr;76(4):352-6.
Research suggests that preflight training in virtual reality devices can simulate certain aspects of microgravity and may prove to be an effective countermeasure for space motion sickness (SMS) and spatial disorientation (SD). It is hypothesized that exposing subjects preflight to variable virtual orientations, similar to those encountered during spaceflight, will reduce the incidence and/or severity of SMS and SD.
Subjects were assigned to either a variable training (VT) or nonvariable training (NVT) condition to perform a simple navigation and switch activation task in a virtual space station. VT subjects performed the task starting in several different orientations, whereas NVT subjects always performed the task starting in the same orientation. On a separate day, all subjects then performed the same task in a transfer of training session starting from a novel orientation.
When exposed to the novel test orientation, VT subjects performed the tasks more quickly (12%) and with fewer nausea symptoms (53%) than during the training session, compared with NVT subjects who performed more slowly (6%) and with more nausea symptoms (28%). Both VT and NVT conditions were effective in reducing the number of wall hits in the novel orientation (39% and 34%, respectively).
These results demonstrate the effectiveness of using variable training in a virtual environment for reducing nausea and improving task performance in potentially disorienting surroundings, and suggest that such training may be developed into an effective countermeasure for SMS, SD, and associated performance decrements that occur in spaceflight.
研究表明,虚拟现实设备中的飞行前训练可以模拟微重力的某些方面,可能被证明是应对太空晕动病(SMS)和空间定向障碍(SD)的有效对策。据推测,在飞行前让受试者接触类似于太空飞行中遇到的可变虚拟方向,将降低SMS和SD的发生率和/或严重程度。
将受试者分配到可变训练(VT)或非可变训练(NVT)条件下,在虚拟空间站中执行简单的导航和开关激活任务。VT组受试者从几个不同方向开始执行任务,而NVT组受试者始终从相同方向开始执行任务。在另一天,所有受试者然后从一个新的方向开始,在训练转换环节中执行相同的任务。
与NVT组受试者相比,当暴露于新的测试方向时,VT组受试者执行任务更快(快12%),恶心症状更少(少53%),而NVT组受试者执行任务更慢(慢6%),恶心症状更多(多28%)。VT组和NVT组在减少新方向上墙碰撞次数方面均有效(分别减少39%和34%)。
这些结果证明了在虚拟环境中使用可变训练来减少恶心和提高在可能导致定向障碍的环境中的任务表现的有效性,并表明这种训练可能发展成为应对太空飞行中出现的SMS、SD和相关性能下降的有效对策。
