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算术认知的构成性质:一些重要问题。

The componential nature of arithmetical cognition: some important questions.

作者信息

Dowker Ann

机构信息

Experimental Psychology, University of Oxford, Oxford, United Kingdom.

出版信息

Front Psychol. 2023 Sep 14;14:1188271. doi: 10.3389/fpsyg.2023.1188271. eCollection 2023.

Abstract

Research on typically developing children and adults and people with developmental and acquired dyscalculia converges in indicating that arithmetical ability is not unitary but is made up of many different components. Categories of components include non-symbolic quantity representation and processing; symbolic quantity representation and processing; counting procedures and principles; arithmetic operations; arithmetical knowledge and understanding; multiple forms and applications of conceptual knowledge of arithmetic; and domain-general abilities such as attention, executive functions and working memory. There is much evidence that different components can and often do show considerable functional independence, not only in developmental and acquired dyscalculia, but in typically achieving children and adults. At the same time, it is possible to find complex interactions and bidirectional relationships between the different components, including between domain-specific and apparently domain-general abilities. There is a great deal that still needs to be discovered. In particular, we need to learn more about the origins in infancy of subitizing and approximate magnitude comparison, the extent to which these interact, the extent to which they may be further divisible, and the extent and ways in which they themselves may develop with age and the extent to which they may influence later-developing components. There also needs to be a lot more research on exactly how domain-general and domain-specific abilities contribute to mathematical development, and how they interact with one another.

摘要

对正常发育的儿童、成人以及患有发育性和后天性计算障碍的人的研究一致表明,算术能力并非单一的,而是由许多不同的成分组成。这些成分类别包括非符号数量表征与处理;符号数量表征与处理;计数程序与原则;算术运算;算术知识与理解;算术概念知识的多种形式与应用;以及诸如注意力、执行功能和工作记忆等领域通用能力。有大量证据表明,不同的成分不仅在发育性和后天性计算障碍中,而且在正常发育的儿童和成人中,都能够且常常表现出相当大的功能独立性。与此同时,在不同成分之间,包括特定领域能力和明显的领域通用能力之间,也能够发现复杂的相互作用和双向关系。仍有许多有待发现的地方。特别是,我们需要更多地了解婴儿期内对小数量识别和近似数量比较的起源、它们相互作用的程度、它们可能进一步细分的程度、它们自身随年龄发展的程度以及它们可能影响后期发展成分的程度。还需要对领域通用能力和特定领域能力究竟如何促进数学发展以及它们如何相互作用进行更多的研究。

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