The results for Experiment 2b.

<p>(A) and (B) The accuracy and reaction times for the four types of change, respectively. The * and <i>ns</i> show the result of planned contrast between the three types of change and no change. * means the difference is significant, whereas <i>ns</i> means the difference is nonsignificant. (C) The ERPs recorded at FZ and FCZ. Only the relevant change and both change elicited N270 relative to no change, no difference existed between irrelevant change and no change.</p

The results for Experiment 2c.

<p>(A) and (B) The accuracy and reaction times for the four types of change, respectively. The * and <i>ns</i> show the result of planned contrast between the three types of change and no change. * means the difference is significant, whereas <i>ns</i> means the difference is nonsignificant. (C) The ERPs recorded at FZ and FCZ. Only the relevant change and both change elicited N270 relative to no change, no difference existed between irrelevant change and no change.</p

The six distinct shapes used in Experiment 4.

<p>The six distinct shapes used in Experiment 4.</p

The results for Experiment 4.

<p>(A) and (C) The accuracy for the four types of change for shape as irrelevant feature and gap's orientation as irrelevant feature, respectively. The * and <i>ns</i> show the result of planned contrast between the three types of change and no change. * means the difference is significant, whereas <i>ns</i> means the difference is nonsignificant. (B) and (D) The ERPs recorded at F4 and F8, with the topography of relevant change (320 ms). Compared to no change, all the other three changes elicited N270 when shape was the irrelevant feature, yet only the relevant change and both change elicited N270 when orientation was the irrelevant feature.</p

ShenOpenPracticesDisclosure – Supplemental material for Object-Based Attention on Social Units: Visual Selection of Hands Performing a Social Interaction

<p>Supplemental material, ShenOpenPracticesDisclosure for Object-Based Attention on Social Units: Visual Selection of Hands Performing a Social Interaction by Jun Yin, Haokui Xu, Jipeng Duan and Mowei Shen in Psychological Science</p

Example of the mask and the results for Experiment 1b.

<p>(A) Pattern mask used in the current experiment. (B) and (C) Accuracy and reaction times (RT) for the match-mismatch task, respectively. The * and <i>ns</i> show the result of planned contrast between the three types of change and no change. * means the difference is significant, whereas <i>ns</i> means the difference is nonsignificant. (D) The ERPs recorded at FZ and FCZ. All the three types of change elicited N270 relative to no change.</p

The results for Experiment 2a.

<p>(A) and (B) The accuracy and reaction times for the four types of change, respectively. The * and <i>ns</i> show the result of planned contrast between the three types of change and no change. * means the difference is significant, whereas <i>ns</i> means the difference is nonsignificant. (C) The ERPs recorded at FZ and FCZ. Only the relevant change and both change elicited N270 relative to no change, no difference existed between irrelevant change and no change.</p

ShenSupplementalExperiments – Supplemental material for Object-Based Attention on Social Units: Visual Selection of Hands Performing a Social Interaction

<p>Supplemental material, ShenSupplementalExperiments for Object-Based Attention on Social Units: Visual Selection of Hands Performing a Social Interaction by Jun Yin, Haokui Xu, Jipeng Duan and Mowei Shen in Psychological Science</p

Video_1_Microsaccades reflect attention shifts: a mini review of 20 years of microsaccade research.MP4

Microsaccades are small, involuntary eye movements that occur during fixation. Since the 1950s, researchers have conducted extensive research on the role of microsaccades in visual information processing, and found that they also play an important role in human advanced visual cognitive activities. Research over the past 20 years further suggested that there is a close relationship between microsaccades and visual attention, yet lacking a timely review. The current article aims to provide a state-of-the-art review and bring microsaccades studies into the sight of attention research. We firstly introduce basic characteristics about microsaccades, then summarized the empirical evidence supporting the view that microsaccades can reflect both external (perception) and internal (working memory) attention shifts. We finally conclude and highlight three promising avenues for future research.</p

Illustration of the target categories during configuration collapse.

<p>The left panel illustrates the configuration prior to collapse, and the right panel illustrates the moment when target “C” crossed edge “AB”.</p