CAJ | 학술논문

返回抑制(IOR)是指注意过程中个体对已搜索过的位置进行抑制,从而在随后该位置上出现目标时发生注意重新定向或反应变慢的过程.本研究使用 ERPs 技术,采用线索-靶子范式,考察了情绪目标辨别任务中 IOR 的发生过程及二者的神经机制.结果发现,与无效线索相比,有效线索下的 P1波幅更小, N1波幅更大,正性、负性面孔 N170的波幅比中性面孔大.表明当要求被试做情绪辨别任务时, IOR 与对情绪信息的反应之间发生了分离,表现出情绪加工的优先.这说明 IOR 和情绪偏向是发生在两种不同神经通路上的适应机制,也为进一步探究注意与情绪的关系问题提供了来自神经电生理学的证据.
반회억제(IOR)시지주의과정중개체대이수색과적위치진행억제,종이재수후해위치상출현목표시발생주의중신정향혹반응변만적과정.본연구사용 ERPs 기술,채용선색-파자범식,고찰료정서목표변별임무중 IOR 적발생과정급이자적신경궤제.결과발현,여무효선색상비,유효선색하적 P1파폭경소, N1파폭경대,정성、부성면공 N170적파폭비중성면공대.표명당요구피시주정서변별임무시, IOR 여대정서신식적반응지간발생료분리,표현출정서가공적우선.저설명 IOR 화정서편향시발생재량충불동신경통로상적괄응궤제,야위진일보탐구주의여정서적관계문제제공료래자신경전생이학적증거.
@@@@Posner and Cohen (1984) discovered the inhibition of return (IOR) phenomenon, which refers to the individual’s response to targets that appear in previously cued location, is slower than it is to the uncued location when the stimulus-onset asynchrony (SOA) is longer than 300ms. Psychologists agree that IOR is an adaptive and evolved mechanism that enhances the efficiency of attention during a visual search and allows people more easily to process targets that appear in novel positions. The current research uses event-related potentials (ERPs) and adopts a cue-target paradigm to investigate the IOR process during an emotion recognition task and the underlying mechanisms. We conducted a 2 (cue: valid cues, invalid cues) × 3 (target emotional: positive, negative, neutral) within-subject design, and selected the emotional face pictures (40 positive faces; 40 negative faces; 40 neutral faces) as the target stimuli of IOR. Sixteen participants of university students were instructed to complete the task of judging the target as emotional face or neutral one. Electroencephalogram (EEG) signals were recorded using a 64-electrode elastic cap and the Neuroscan ERP workstation. Based on the overall average map and the research literature, we divided the ERP components by the time windows in which they occurred:P1, 80~110 ms; N1, 110~140 ms; and N170, 140~180 ms. We used six electrodes (Po5, Po6, O1, O2, Poz and Oz) to detect the P1 and N1 components in the occipital region and two electrodes (P7 and P8) to detect the N170 component in the temporal occipital region. Repeated measure ANOVAs were conducted on the behavioural data and the measurements derived from ERP waveforms. The results demonstrate that the amplitude of P1 of the valid cues was smaller, while N1 amplitude was larger, compared with those of the invalid cues. N170 amplitudes for positive and negative faces were significantly larger than those for neutral ones. These results indicate that the response to the emotional stimulus are specialized and separated from IOR progress, and this separation consequently leads to the precedence of emotion processing when participants response to the valance of the targets, suggesting that IOR and emotional bias are two adaptation mechanisms which occur in two different neural pathways. Our findings also provide electrophysiological evidences for the research on the correlation of attention and emotion.