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Additive Factors Do Not Imply Discrete Processing Stages: A Worked Example Using Models of the Stroop Task

机译：加性因素并不意味着离散的加工阶段：使用Stroop任务模型的实例

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Previously, it has been shown experimentally that the psychophysical law known as Piéron’s Law holds for color intensity and that the size of the effect is additive with that of Stroop condition (Stafford et al., ). According to the additive factors method (Donders, ; Sternberg, ), additivity is assumed to indicate independent and discrete processing stages. We present computational modeling work, using an existing Parallel Distributed Processing model of the Stroop task (Cohen et al., ) and a standard model of decision making (Ratcliff, ). This demonstrates that additive factors can be successfully accounted for by existing single stage models of the Stroop effect. Consequently, it is not valid to infer either discrete stages or separate loci of effects from additive factors. Further, our modeling work suggests that information binding may be a more important architectural property for producing additive factors than discrete stages.

机译：以前，已经通过实验证明，被称为皮隆定律的心理物理定律适用于色彩强度，并且效果的大小与Stroop条件的大小是可加的（Stafford等，）。根据加性因子方法（Donders，; Sternberg，），假定可加性表示独立和离散的处理阶段。我们使用Stroop任务的现有并行分布式处理模型（Cohen等人）和决策的标准模型（Ratcliff，）来介绍计算建模工作。这表明加性因子可以通过现有的Stroop效应单阶段模型成功解决。因此，从加性因子中推断作用的离散阶段或单独的基因座是无效的。此外，我们的建模工作表明，信息绑定对于产生加性因子可能比离散阶段更重要。

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期刊名称 Frontiers in Psychology
作者
Tom Stafford; Kevin N. Gurney;
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作者单位

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年(卷),期 2011(2),-1
年度 2011
页码 287
总页数 9
原文格式 PDF
正文语种
中图分类病理学;
关键词
decision making Stroop Piéron’s law additive factors method;

机译：决策;斯特鲁普;皮隆定律;加性因子法;

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专利

1. Additive Factors Do Not Imply Discrete Processing Stages: A Worked Example Using Models of the Stroop Task [J] . Tom Stafford, Kevin N. Gurney Frontiers in Psychology . 2011,第4期

机译：加性因素并不意味着离散的加工阶段：使用Stroop任务模型的工作示例
2. Additive factors and stages of mental processes in task networks [J] . Schweickert R., Fisher D.L., Goldstein W.M. Journal of Mathematical Psychology . 2010,第5期

机译：任务网络中心理过程的加性因素和阶段
3. Children With ADHD Show Impairments in Multiple Stages of Information Processing in a Stroop Task: An ERP Study [J] . Kobor Andrea, Takacs Adam, Bryce Donna, Developmental neuropsychology . 2015,第5a6期

机译：有ADHD的儿童在Stroop任务的信息处理的多个阶段均显示出障碍：一项ERP研究
4. Development of an n-working stages lot size model, considering variable processing and reprocessing times, defective items and logistics factors. Resolution proposal for the Uniform Distributed production times cases. [C] . J. Valencia, M. P. Lamban, J. Royo Manufacturing Engineering Society International Conference . 2016

机译：考虑可变加工和再处理时间，有缺陷的物品和物流因子，开发N工作阶段批量模型。解决均匀分布式生产时间案例的解决方案。
5. Bilingualism, inhibition, and executive processing: Evidence from Stroop color naming, proactive interference, task-switching, and working memory. [D] . Nikolova, Ani G. 2007

机译：双语，抑制和执行处理：来自Stroop颜色命名，主动干预，任务切换和工作记忆的证据。
6. Adaptation to recent conflict in the classical color-word Stroop-task mainly involves facilitation of processing of task-relevant information [O] . Sascha Purmann, Stefan Pollmann 2015

机译：适应经典颜色词Stroop-task中的最新冲突主要涉及简化与任务相关的信息的处理
7. Additive Factors Do Not Imply Discrete Processing Stages: A Worked Example Using Models of the Stroop Task [O] . Stafford, Tom, Gurney, Kevin N. 2011

机译：加性因素并不意味着离散的加工阶段：使用Stroop任务模型的实例
8. The Application of Additive Factors Methodology to Workload Assessment in a Dynamic System Monitoring Task [R] . Micalizzi, J., Wickens, C. D. 1980

机译：添加因子方法在动态系统监测任务中的工作量评估中的应用

Additive Factors Do Not Imply Discrete Processing Stages: A Worked Example Using Models of the Stroop Task

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