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首页> 外文期刊>International Journal of Hygiene and Environmental Health >Effects of low intensity noise from aircraft or from neighbourhood on cognitive learning and electrophysiological stress responses
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Effects of low intensity noise from aircraft or from neighbourhood on cognitive learning and electrophysiological stress responses

机译:飞机或附近地区的低强度噪声对认知学习和电生理应激反应的影响

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The effects of low intensity noise on cognitive learning and autonomous physiological processes are of high practical relevance but are rarely addressed in empirical investigations. This study investigated the impact of neighbourhood noise (of 45dB[A], n = 20) and of noise coming from passing aircraft (of 48 dB[A] peak amplitude presented once per minute; n = 19) during computer based learning of different texts (with three types of text structure, i.e. linear text, hierarchic hypertext, and network hypertext) in relation to a control group (35dB[A], n = 20). Using a between subjects design, reproduction scores, heart rate, and spontaneous skin conductance fluctuations were compared. Results showed impairments of reproduction in both noise conditions. Additionally, whereas in the control group and the neighbourhood noise group scores were better for network hypertext structure than for hierarchic hypertext, no effect of text structure on reproduction appeared in the aircraft noise group. Compared to the control group, for most of the learning period the number of spontaneous skin conductance fluctuations was higher for the aircraft noise group. For the neighbourhood noise group, fluctuations were higher during pre- and post task periods when noise stimulation was still present. Additionally, during the last 5 min of the 15 min learning period, an increased heart rate was found in the aircraft noise group. Data indicate remarkable cognitive and physiological effects of low intensity background noise. Some aspects of reproduction were impaired in the two noise groups. Cognitive learning, as indicated by reproduction scores, was changed structurally in the aircraft noise group and was accompanied by higher sympathetic activity. An additional cardiovascular load appeared for aircraft noise when combined with time pressure as indicated by heart rate for the announced last 5 min of the learning period during aircraft noise with a peak SPL of even 48dB(A). Attentional mechanisms (attentional control) like being threatened by passing aircraft approaching the airport, higher demands of selective filtering, and difficulties in changing cognitive strategies during noise are discussed as underlying mechanisms.
机译:低强度噪声对认知学习和自主生理过程的影响具有很高的实际意义,但在实证研究中很少涉及。这项研究调查了在不同计算机的学习过程中,邻域噪声(45dB [A],n = 20)和来自经过飞机的噪声(48 dB [A]每分钟出现一次峰值振幅; n = 19)的影响。与控制组相关的文本(具有线性文本,分层超文本和网络超文本的三种文本结构)(35dB [A],n = 20)。使用受试者之间的设计,比较了生殖评分,心率和自发皮肤电导率波动。结果表明,在两种噪声条件下,复制均受到损害。此外,尽管在控制组和邻域噪声组中,网络超文本结构的得分比分层超文本更好,但在飞机噪声组中,文本结构对再现没有影响。与对照组相比,在大多数学习期间,飞机噪声组的自发皮肤电导波动数量更高。对于邻里噪声组,在任务前和任务后期间仍存在噪声刺激时,波动较大。此外,在15分钟的学习期的最后5分钟内,飞机噪音组的心率增加。数据表明低强度背景噪声具有明显的认知和生理效应。在两个噪声组中,复制的某些方面受到了损害。如再现分数所示,认知学习在飞机噪声组中发生了结构性变化,并伴有较高的交感神经活动。飞机噪声期间,在宣布的学习期的最后5分钟内,心率指示了心率所指示的时间压力,这给飞机噪声带来了额外的心血管负荷,峰值声压级甚至达到48dB(A)。潜在的机制被讨论为注意力机制(注意力控制),例如通过越过飞机的飞机威胁到机场,选择性过滤的更高要求以及在噪声期间难以改变认知策略的问题。

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