Abstract
Destination as the cognitive tasks have relatively fixed resource consumption, whether the ordinal factors influence the cognitive resource consumption or not is an important question, which means the threshold of dangerous performance may be anticipated accurately if the answer is found for true. Methods Two experiments are designed for cognitive analysis, which were based on the pilot-climbing status tasks. Each experiment procedure contains three steps of mode decision, warning and broadcasting. Orders were changed in two procedures. What’s more, warning task had two sub-steps, and climbing step had three sub-steps, the inside group orders were not changed while the steps transformed. The reaction time of each task, step and sub-step was checked and the implicit mechanism of the ordinal effect was drawn. Conclusions the sequence of the task implementation has a significant impact on the reaction time, which is a reflection of cognitive resources consumption. Although the repetition of tasks may cause the promotion of familiarity, the reaction time of the subsequent task is still longer than the previous one. The ordinal effect should be taken into account in the total amount of cognitive resources consumption and anticipation.
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References
Head, J., Helton, W.S.: Natural scene stimuli and lapses of sustained attention. Conscious. Cogn. 21, 1617–1625 (2012)
Head, J., Helton, W.S.: Perceptual decoupling or motor decoupling? Conscious. Cogn. 21, 913–919 (2013)
Head, J., Russell, P.N., Dorahy, M.J., Neumann, E., Helton, W.S.: Text-speak processing and the sustained attention to response task. Exp. Brain Res. 216(1), 103–111 (2011)
Helton, W.S.: Impulsive responding and the sustained attention to response task. J. Clin. Exp. Neuropsychol. 31, 39–47 (2009)
Shaw, T., Satterfield, R., Ramirez, R., Finomore, V.: A comparison of subjective and physiological workload assessment techniques during a 3-dimensional audio vigilance task. In: Proceedings of the Human Factors and Ergonomics Society Annual Meeting, vol. 56, no. 1, pp. 1451–1455 (2012)
Helton, W.S., Warm, J.S.: Signal salience and the mindlessness theory of vigilance. Acta Physiol. 129, 18–25 (2008)
Jonker, T.R., Seli, P., Cheyne, J.A., Smilek, D.: Performance reactivity in a continuous-performance task: implications for understanding post-error behavior. Conscious. Cogn. 22(4), 1468–1476 (2013)
James, H., William, S.H.: Sustained attention failures are primarily due to sustained cognitive load not task monotony. Acta Physiol. 153, 87–94 (2014)
Marissa, K., Daniel, E.F., Maria, M.L., Amishi, P.J.: The influence of time on task on mind wandering and visual working memory. Cognition 169, 84–90 (2017)
Alessandra, V., Leonor, J.R.L., Rolando, B., Laura, Z., Laura, D., Manuela, B.: What is difficult for you can be easy for me. Effects of increasing individual task demand on prefrontal lateralization: a tDCS study. Neuropsychologia 109(31), 283–294 (2018)
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This paper is supported by Science and Technology on Avionics Integration Laboratory and Aeronautical Science Fund (No. 20165569019).
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Xi, W., Zhou, L., Ma, X., Liu, Y., Chen, H. (2019). Study on the Influence Mechanism Between Ordinal Factors and Cognitive Resource Consumption. In: Ayaz, H., Mazur, L. (eds) Advances in Neuroergonomics and Cognitive Engineering. AHFE 2018. Advances in Intelligent Systems and Computing, vol 775. Springer, Cham. https://doi.org/10.1007/978-3-319-94866-9_35
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DOI: https://doi.org/10.1007/978-3-319-94866-9_35
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