Ishibashi Kazuya, Kita Shinichi, Wolfe Jeremy M
Graduate School of Humanities, Kobe University, 1-1 Rokkodai-cho, Nada-ku, Kobe, Japan.
Atten Percept Psychophys. 2012 Jan;74(1):115-23. doi: 10.3758/s13414-011-0225-4.
In visual search tasks, the relative proportions of target-present and -absent trials have important effects on behavior. Miss error rates rise as target prevalence decreases (Wolfe, Horowitz, & Kenner, Nature 435, 439-440, 2005). At the same time, search termination times on target-absent trials become shorter (Wolfe & Van Wert, Current Biology 20, 121-124, 2010). These effects must depend on some implicit or explicit knowledge of the current prevalence. What is the nature of that knowledge? In Experiment 1, we conducted visual search tasks at three levels of prevalence (6%, 50%, and 94%) and analyzed performance as a function of "local prevalence," the prevalence over the last n trials. The results replicated the usual effects of overall prevalence but revealed only weak or absent effects of local prevalence. In Experiment 2, the overall prevalence in a block of trials was 20%, 50%, or 80%. However, a 100%-valid cue informed observers of the prevalence on the next trial. These explicit cues had a modest effect on target-absent RTs, but explicit expectation could not explain the full prevalence effect. We conclude that observers predict prevalence on the basis of an assessment of a relatively long prior history. Each trial contributes a small amount to that assessment, and this can be modulated but not overruled by explicit instruction.
在视觉搜索任务中,目标出现和未出现的试验的相对比例对行为有重要影响。随着目标出现概率的降低,漏报错误率会上升(沃尔夫、霍洛维茨和肯纳,《自然》435卷,439 - 440页,2005年)。与此同时,在目标未出现的试验中,搜索终止时间会变短(沃尔夫和范·韦特,《当代生物学》20卷,121 - 124页,2010年)。这些影响必定依赖于对当前出现概率的某种隐性或显性的认知。那种认知的本质是什么呢?在实验1中,我们在三种出现概率水平(6%、50%和94%)下进行了视觉搜索任务,并将表现分析为“局部出现概率”的函数,即过去n次试验中的出现概率。结果重现了总体出现概率的常见影响,但仅揭示了局部出现概率的微弱影响或无影响。在实验2中,一组试验的总体出现概率为20%、50%或80%。然而,一个100%有效的线索会告知观察者下一次试验的出现概率。这些显性线索对目标未出现时的反应时间有适度影响,但显性预期无法解释全部的出现概率效应。我们得出结论,观察者基于对相对较长的先前历史的评估来预测出现概率。每次试验对该评估的贡献很小,并且这可以被调节,但不会被显性指令推翻。