The role of brain oscillations in feature integration.

Psychophysiology Pub Date : 2024-03-01 Epub Date: 2023-11-22 DOI:10.1111/psyp.14467
M I Cobos, M Melcón, P Rodríguez-San Esteban, A Capilla, A B Chica
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Abstract

Our sensory system is able to build a unified perception of the world, which although rich, is limited and inaccurate. Sometimes, features from different objects are erroneously combined. At the neural level, the role of the parietal cortex in feature integration is well-known. However, the brain dynamics underlying correct and incorrect feature integration are less clear. To explore the temporal dynamics of feature integration, we studied the modulation of different frequency bands in trials in which feature integration was correct or incorrect. Participants responded to the color of a shape target, surrounded by distractors. A calibration procedure ensured that accuracy was around 70% in each participant. To explore the role of expectancy in feature integration, we introduced an unexpected feature to the target in the last blocks of trials. Results demonstrated the contribution of several frequency bands to feature integration. Alpha and beta power was reduced for hits compared to illusions. Moreover, gamma power was overall larger during the experiment for participants who were aware of the unexpected target presented during the last blocks of trials (as compared to unaware participants). These results demonstrate that feature integration is a complex process that can go wrong at different stages of information processing and is influenced by top-down expectancies.

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脑振荡在特征整合中的作用。
我们的感官系统能够建立对世界的统一感知,这种感知虽然丰富,但却是有限和不准确的。有时,来自不同物体的特征被错误地组合在一起。在神经水平上,顶叶皮层在特征整合中的作用是众所周知的。然而,正确和不正确的特征整合背后的大脑动力学却不太清楚。为了探索特征集成的时间动态,我们研究了特征集成正确或不正确的试验中不同频段的调制。参与者对周围有干扰物的形状目标的颜色做出反应。校准程序确保每个参与者的准确度在70%左右。为了探索期望在特征集成中的作用,我们在最后的试验块中向目标引入了一个意想不到的特征。结果表明了多个频带对特征集成的贡献。与幻象相比,命中的Alpha和beta能量降低了。此外,在实验过程中,在最后一组实验中意识到意外目标的参与者的伽马能量总体上更大(与不知情的参与者相比)。这些结果表明,特征集成是一个复杂的过程,在信息处理的不同阶段可能出现错误,并受到自上而下期望的影响。
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