心理学报
心理學報
심이학보
Acta Psychologica Sinica
2009年
12期
1143~1151
,共null页
无意视盲 非预想刺激 运动速率 倒U型曲线
無意視盲 非預想刺激 運動速率 倒U型麯線
무의시맹 비예상자격 운동속솔 도U형곡선
inattentional blindness; unexpected stimulus; moving speed; inverted-U curve;
无意视盲是指由于对某些事物的专注而导致的眼前对象被忽视的现象。它受到诸如非预想刺激的位置、大小、颜色;非预想刺激与注意刺激之间的关系;被试的年龄、专业知识、加工能力等诸多因素的影响。本文通过改进的MR范式考察了"等时"和"等距"条件下非预想刺激的运动速率对无意视盲的影响。实验结果显示:(1)非预想刺激的运动速率和其呈现时间对无意视盲的比率有显著影响;(2)在一定的呈现时间范围内,视盲率随运动速率的升高而降低,但当维持相等的运动距离时,视盲率没有显著变化;(3)当呈现时间超出一定范围时,运动速率对无意视盲的影响急剧减小,即呈现时间制约着运动速率对无意视盲的影响,两者间呈倒U型曲线关系。文末就实验结果进行了详细分析和讨论。
無意視盲是指由于對某些事物的專註而導緻的眼前對象被忽視的現象。它受到諸如非預想刺激的位置、大小、顏色;非預想刺激與註意刺激之間的關繫;被試的年齡、專業知識、加工能力等諸多因素的影響。本文通過改進的MR範式攷察瞭"等時"和"等距"條件下非預想刺激的運動速率對無意視盲的影響。實驗結果顯示:(1)非預想刺激的運動速率和其呈現時間對無意視盲的比率有顯著影響;(2)在一定的呈現時間範圍內,視盲率隨運動速率的升高而降低,但噹維持相等的運動距離時,視盲率沒有顯著變化;(3)噹呈現時間超齣一定範圍時,運動速率對無意視盲的影響急劇減小,即呈現時間製約著運動速率對無意視盲的影響,兩者間呈倒U型麯線關繫。文末就實驗結果進行瞭詳細分析和討論。
무의시맹시지유우대모사사물적전주이도치적안전대상피홀시적현상。타수도제여비예상자격적위치、대소、안색;비예상자격여주의자격지간적관계;피시적년령、전업지식、가공능력등제다인소적영향。본문통과개진적MR범식고찰료"등시"화"등거"조건하비예상자격적운동속솔대무의시맹적영향。실험결과현시:(1)비예상자격적운동속솔화기정현시간대무의시맹적비솔유현저영향;(2)재일정적정현시간범위내,시맹솔수운동속솔적승고이강저,단당유지상등적운동거리시,시맹솔몰유현저변화;(3)당정현시간초출일정범위시,운동속솔대무의시맹적영향급극감소,즉정현시간제약착운동속솔대무의시맹적영향,량자간정도U형곡선관계。문말취실험결과진행료상세분석화토론。
Inattentional blindness is a phenomenon that,when people focus on a visual stimulus,they often neglect other stimuli appearing in the visual field. It is influenced by many factors,such as the position,size,color of irrelevant stimuli,the relationship between unexpected stimulus and attended stimulus,and so on. The main purpose of this study is to examine the influence of the speed of unexpected stimulus on inattentional blindness. Two experiments were conducted to investigate the perception or awareness of the unexpected irrelevant stimulus with different moving speeds under equi-interval and equi-distance conditions with the revised Mack and Rock's paradigm. Each experiment corresponds to a variation of Mack & Rock condition,the vigilant condition and the full attention condition respectively. Subjects were asked to count the number of a central fixation flashing within a 10s interval. After that,the screen was masked with a random line pattern for 2000 msec. Then subjects were required to report the number as accurately as possible. This procedure was followed on the first three trials. In the fourth trial (unexpected trial),a critical stimulus – an unexpected dark gray circle,with different speeds moving across one of the quadrant either vertically or horizontally. Immediately after the trial in which the critical stimulus was presented,subjects were asked whether they had seen anything on the screen other than the flashed cross,which was anything that had not been presented on previous trials. If subjects reported that they had seen something,they were asked to identify it by describing it and indicating the quadrant where the critical stimulus appeared and the moving direction of the critical stimulus. The fifth trial (divided-attention trial) was the same as the fourth,then one may expect that another shape of a critical stimulus was added in order to increase the confusion of the critical stimulus. The participants were asked to to report the properties related to the critical stimulus on the last trial (full-attention trial),but not to perform the counting task. Under the equi-interval condition,the moving critical stimulus was presented for 200ms; but under the equi-distance condition,the presentation time of the moving critical stimulus varied with the speed of the critical stimulus in order to keep the distance equal. We found (1) The inattentional blindness was significantly influenced by the moving speed and the moving interval of the critical stimulus. (2) Within a certain range of moving interval,the faster was the critical stimulus,the smaller was the proportion of inattentional blindness. There was no significant difference when the moving distances of different moving speeds were the same. (3) When the presentation time was beyond some range,the influences of the moving speed to inattentional blindness decreased dramatically,and an inverted-U relationship was shown between the influences of moving speed to inattentional blindness and the presentation time. Detailed analyses and discussion of the results are presented at the end of the paper.