比较多模态姿势/听觉双任务环境中不同的总工作量测量

R. Cullen, M. Agnew
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引用次数: 5

摘要

本研究探讨了多模态双任务范式(平衡任务和认知任务)对整体心理负荷的影响。平衡任务不影响认知任务的表现,认知任务的存在导致不稳定座位下更好的平衡表现。与此同时,总体心理工作量的测量显示,当认知任务增加时,在某些情况下,当平衡任务变得更难(更不稳定)时,总体心理工作量会增加。这些结果产生了两个重要的含义。首先,同时完成的两个多模式任务的性能水平不足以解释系统中的总体工作量。即使性能最初没有受到负面(甚至是正面)影响,工作负载也会增加,并可能接近或达到过载。其次,任何对工作表现或工作量的单一衡量都很可能不足以有效地解释一个人与多任务环境的互动方式。背景:听觉和平衡是许多多任务环境的重要方面;听觉信号被用于无数不同的警报和警报,在工厂和建筑领域,平衡是避免跌倒和受伤或死亡的关键。此外,同时处理多个任务的需求可能会相互作用,从而创建复杂的环境,对这些环境而言,总体工作量的度量是有益的。目的:本研究的目的是量化认知/姿势双任务环境对总体工作量的影响。方法:采用双任务方案,将听觉辨别任务与坐位平衡任务配对。然后,我们使用主观(NASA任务负荷指数)和生理(心率变异性)测量方法来测量任务和总工作量的表现。结果:认知任务的表现在不同的平衡状态下没有变化,而认知任务的存在降低了参与者在不稳定状态下的姿势摇摆。工作量测量的结果各不相同;然而,大多数人表示认知任务的工作量增加了。结论:这两个结果看起来可能是矛盾的,在姿势任务中的表现随着总工作量的增加而增加。然而,综合起来,他们提出了两个重要的结论:需要使用不止一种工作量测量方法,以及理解环境和任务难度所产生的唤醒水平的重要性。在涉及身体需求的情况下,听觉警报的设计应考虑唤醒水平和可能的过载,避免高估单一指标。
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Comparing Different Measures of Overall Workload in a Multimodal Postural/Auditory Dual-Task Environment
OCCUPATIONAL APPLICATIONS This study investigated the effects of a multimodal dual-task paradigm (balance and cognitive tasks) on overall mental workload. The balance task did not affect the performance of the cognitive task, and the presence of the cognitive task led to better balance performance with unstable seating. Simultaneously, measures of overall mental workload showed a general increase when the cognitive task was added and, in some cases, when the balancing task became harder (more unstable). These results generate two important implications. First, the performance levels of two multimodal tasks being done concurrently are insufficient to explain the overall workload in the system. Even if performance is not negatively (or even positively) affected initially, workload increases and may approach or reach overload. Second, any single measure of performance or workload taken in situ might very well be insufficient to explain effectively the way an individual is interacting with their multitasking environment. TECHNICAL ABSTRACT Background: Audition and balance are important aspects of many multitasking environments; auditory signals are used for myriad different alerts and alarms, and balance is pivotal in the realms of factory and construction to avoid falling and risking injury or death. Furthermore, the demands of multiple tasks at once can interact, creating complex environments for which measures of overall workload would be beneficial. Purpose: The goal of this research was to quantify the effects of a cognitive/postural dual-task environment on overall workload. Methods: We utilized a dual-task protocol pairing an auditory discrimination task with a seated balancing task. We then measured performance on both tasks and overall workload using subjective (NASA Task Load Index) and physiological (heart rate variability) measures. Results: Cognitive task performance did not change across different balance conditions, while the presence of the cognitive task decreased postural sway when the participants were unstable. The results regarding workload measures were varied; however, most indicated an increase in workload with the cognitive task. Conclusions: These two results might seem contradictory, with performance in the postural task increasing as the overall workload increases. Taken together, though, they suggest two important conclusions: the need to use more than one method of workload measurement and the importance of understanding the arousal level created by the environment and task difficulty. Designs of auditory alerts in situations involving physical demands should consider arousal levels and possible overload and avoid overvaluing single metrics.
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