From beeps to streets: unveiling sensory input and relevance across auditory contexts.

IF 1.5 Q3 ERGONOMICS

Frontiers in neuroergonomics Pub Date : 2025-04-28 eCollection Date: 2025-01-01 DOI:10.3389/fnrgo.2025.1571356

Silvia Korte, Manuela Jaeger, Marc Rosenkranz, Martin G Bleichner

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Abstract

Introduction: This study investigates the neural basis of sound perception in everyday life using EEG data recorded in an office-like environment over 3.5 h. We aimed to understand how contextual factors such as personal relevance, task complexity, and stimulus properties influence auditory processing in ecologically valid settings.

Methods: By systematically increasing the complexity of acoustic scenes and tasks, we analyzed changes in neural responses, focusing on the N100 and P300 components.

Results: Our results show that while the P300 is a stable marker of attention in both isolated sounds and complex soundscapes, the N100 is more sensitive to task complexity and environmental factors.

Discussion: These findings highlight the importance of context in shaping auditory perception and suggest that laboratory-based findings can be partially generalized to real-world settings. At the same time, task demands significantly influence neural markers. This opens new opportunities to study sound perception in naturalistic environments without sacrificing the control typically afforded by laboratory studies.

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从哔哔声到街道：揭示感官输入和听觉背景的相关性。

本研究使用在类似办公室的环境中记录的超过3.5小时的脑电图数据来研究日常生活中声音感知的神经基础。我们旨在了解环境因素（如个人相关性、任务复杂性和刺激特性）如何影响生态有效环境下的听觉处理。方法：通过系统地增加声音场景和任务的复杂性，我们分析了神经反应的变化，重点是N100和P300成分。结果：我们的研究结果表明，尽管P300在孤立声音和复杂声景中都是一个稳定的注意力标记，但N100对任务复杂性和环境因素更为敏感。讨论：这些研究结果强调了环境在塑造听觉感知中的重要性，并表明基于实验室的研究结果可以部分地推广到现实环境中。同时，任务要求对神经标记有显著影响。这为在自然环境中研究声音感知提供了新的机会，而无需牺牲实验室研究通常提供的控制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Frontiers in neuroergonomics

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