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Neck Muscle Coactivation Response to Varied Levels of Mental Workload During Simulated Flight Tasks.

Authors :
Le, Peter
Mills, Emily H. L.
Weisenbach, Charles A.
Davis, Kermit G.
Source :
Human Factors; Aug2024, Vol. 66 Issue 8, p2041-2056, 16p
Publication Year :
2024

Abstract

Objective: To evaluate neck muscle coactivation across different levels of mental workload during simulated flight tasks. Background: Neck pain (NP) is highly prevalent among military aviators. Given the complex nature within the flight environment, mental workload may be a risk factor for NP. This may induce higher levels of neck muscle coactivity, which over time may accelerate fatigue, increase neck discomfort, and affect flight task performance. Method: Three counterbalanced mental workload conditions represented by simulated flight tasks modulated by interstimulus frequency and complexity were investigated using the Modifiable Multitasking Environment (ModME). The primary measure was a neck coactivation index to describe the neuromuscular effort of the neck muscles as a system. Additional measures included perceived workload (NASA TLX), subjective discomfort, and task performance. Participants (n = 60; 30M, 30F) performed three test conditions over 1 hr each while seated in a simulated seating environment. Results: Neck coactivation indices (CoA) and subjective neck discomfort corresponded with increasing level of mental workload. Average CoAs for low, medium, and high workloads were:.0278(SD =.0232),.0286(SD =.0231), and.0295(SD =.0228), respectively. NASA TLX mental, temporal, effort, and overall scores also increased with the level of mental workload assigned. For ModME task performance, the overall performance score, monitoring accuracy, and resource management accuracy decreased while reaction times increased with the increasing level of mental workload. Communication accuracy was lowest with the low mental workload but had higher reaction times relative to increasing workload. Conclusion: Mental workload affects neck muscle coactivation during combinations of simulated flight tasks within a simulated helicopter seating environment. Application: The results of this study provide insights into the physical response to mental workload. With increasing multisensory modalities within the work environment, these insights may assist the consideration of physical effects from cognitive factors. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00187208
Volume :
66
Issue :
8
Database :
Complementary Index
Journal :
Human Factors
Publication Type :
Academic Journal
Accession number :
177595207
Full Text :
https://doi.org/10.1177/00187208231206324