操作化
可用性
概念证明
弹性(材料科学)
培训(气象学)
计算机科学
软件
虚拟现实
海军
军事医学
应用心理学
人机交互
心理学
操作系统
政治学
哲学
物理
认识论
热力学
气象学
法学
作者
Natalie Nevins,Rosellen Roche,Stephanie F. Dailey,Jim E. O’Connor,Anthony J. LaPorta,Susannah K. Knust,Todd Daniel
出处
期刊:Military Medicine
[Oxford University Press]
日期:2024-08-19
卷期号:189 (Supplement_3): 480-488
标识
DOI:10.1093/milmed/usae158
摘要
Modern warfare operations are volatile, highly complex environments, placing immense physiological, psychological, and cognitive demands on the warfighter. To maximize cognitive performance and warfighter resilience and readiness, training must address psychological stress to enhance performance. Resilience in the face of adversity is fundamentally rooted in an individual's psychophysiological stress response and optimized through decreased susceptibility to the negative impact of trauma exposure. The current project aims to optimize warfighter expertise, resilience, adaptability, and performance by utilizing a validated Full Dive Virtual Reality (FDVR) training platform to provide high-fidelity, safe, and scalable, controlled stress exposure in highly realistic simulated training scenarios with the most advanced, immersive technology available.
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