Page 87 - JSOM Spring 2026
P. 87
auditory and visual stimuli. Brain Topogr. 2015;28(5):710–725. 34. Li Z, Zhang M, Zhang X, Dai S, Yu X, Wang Y. Assessment of
doi:10.1007/s10548-015-0424-8 cerebral oxygenation during prolonged simulated driving using
30. Zapała D, Augustynowicz P, Tokovarov M. Recognition of atten- near infrared spectroscopy: its implications for fatigue develop-
tional states in VR environment: an fNIRS study. Sensors (Basel). ment. Eur J Appl Physiol. 2009;107(3):281–287. doi:10.1007/
2022;22(9):3133. doi:10.3390/s22093133 s00421-009-1122-6
31. Xu G, Zhou M, Wang J, Mao D, Sun W. The effect of sensory 35. Li F, Wang Y, Wang X, Bi J, Luo Y, Huang L. The characteristics of
manipulation on the static balance control and prefrontal cortex cerebral cortical oxygenation levels and functional connectivity
activation in older adults with mild cognitive impairment: a func- under upper and lower limb exercise-induced fatigue. Sports Med
tional near-infrared spectroscopy (fNIRS) study. BMC Geriatr. Health Sci. 2025;8(1):61–69. doi:10.1016/j.smhs.2025.01.009
2024;24(1):1020. doi:10.1186/s12877-024-05624-8 36. Sharma D, Tripathy NK, Raghunandan V, Sekhar BM. Visual
32. Ahn S, Nguyen T, Jang H, Kim JG, Jun SC. Exploring neuro- acuity through night vision goggles (NVGs): a comparative as-
physiological correlates of drivers’ mental fatigue caused by sleep sessment between Gen 2++ and Gen 3 NVGs under different il-
deprivation using simultaneous EEG, ECG, and fNIRS data. Front lumination conditions. Indian J Aerosp Med. 2021;65(1):17–22.
Hum Neurosci. 2016;10:219. doi:10.3389/fnhum.2016.00219 doi:10.25259/IJASM_15_2021
33. De Wachter J, Roose M, Proost M, et al. Prefrontal cortex oxy-
genation during a mentally fatiguing task in normoxia and hy- PMID: 41838405;
poxia. Exp Brain Res. 2024;242(7):1807–1819. doi:10.1007/ DOI: 10.55460/J.Spec.Oper.Med.2026.VPCK-CUTN
s00221-024-06867-y
Night Vision Goggles: Cognition, Gait, and Marksmanship | 85
