The developmental trajectories of children's reorientation to global and local properties of environmental geometry.

IF 3.7 1区 心理学 Q1 PSYCHOLOGY, EXPERIMENTAL
Journal of Experimental Psychology: General Pub Date : 2024-04-01 Epub Date: 2022-08-04 DOI:10.1037/xge0001265
Matthew G Buckley, Luke J Holden, Alastair D Smith, Mark Haselgrove
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引用次数: 0

Abstract

The way in which organisms represent the shape of their environments during navigation has been debated in cognitive, comparative, and developmental psychology. While there is evidence that adult humans encode the entire boundary shape of an environment (a global-shape representation), there are also data demonstrating that organisms reorient using only segments of the boundary that signal a goal location (a local-shape representation). Developmental studies offer unique insights into this debate; however, most studies have used designs that cannot dissociate the type of boundary-shape representation that children use to guide reorientation. Thus, we examined the developmental trajectories of children's reorientation according to local and global boundary shape. Participants aged 6-12 years were trained to find a goal hidden in one corner of a virtual arena, after which they were required to reorient in a novel test arena. From 10.5 years, children performed above chance when the test arena permitted reorientation based only on local-shape (Experiment 2), or only global-shape (Experiment 3) information. Moreover, when these responses were placed into conflict, older children reoriented with respect to global-shape information (Experiment 4). These age-related findings were not due to older children being better able to reorient in virtual environments per se: when trained and tested within the same environment (Experiment 1), children performed above chance from 6 years. Together, our results suggest (a) the ability to reorient on the basis of global- and local-shape representations develops in parallel, and (b) shape-based information is weighted to determine which representation informs reorientation. (PsycInfo Database Record (c) 2024 APA, all rights reserved).

儿童对环境几何的整体和局部特性进行重新定位的发展轨迹。
在认知、比较和发展心理学中,生物在导航过程中表示环境形状的方式一直备受争议。虽然有证据表明,成年人类会对环境的整个边界形状进行编码(全局形状表征),但也有数据表明,生物体只利用边界中表示目标位置的片段来调整方向(局部形状表征)。发育研究为这一争论提供了独特的见解;然而,大多数研究采用的设计无法区分儿童用于指导调整方向的边界形状表征类型。因此,我们研究了儿童根据局部和全局边界形状调整方向的发展轨迹。我们对 6-12 岁的儿童进行了训练,让他们找到隐藏在虚拟竞技场一角的目标,然后要求他们在新的测试竞技场中调整方向。从 10.5 岁开始,当测试场仅允许根据局部形状信息(实验 2)或仅允许根据全局形状信息(实验 3)调整方向时,儿童的表现均高于正常水平。此外,当这些反应发生冲突时,年龄较大的儿童会根据整体形状信息调整方向(实验 4)。这些与年龄相关的结果并不是因为大龄儿童在虚拟环境中调整方向的能力更强:当在同一环境中进行训练和测试时(实验 1),6 岁以上儿童的表现均高于正常水平。总之,我们的研究结果表明:(a) 根据整体和局部形状表征调整方向的能力是平行发展的;(b) 基于形状的信息是加权的,以决定哪种表征为调整方向提供信息。(PsycInfo Database Record (c) 2024 APA, all rights reserved)。
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来源期刊
CiteScore
6.20
自引率
4.90%
发文量
300
期刊介绍: The Journal of Experimental Psychology: General publishes articles describing empirical work that bridges the traditional interests of two or more communities of psychology. The work may touch on issues dealt with in JEP: Learning, Memory, and Cognition, JEP: Human Perception and Performance, JEP: Animal Behavior Processes, or JEP: Applied, but may also concern issues in other subdisciplines of psychology, including social processes, developmental processes, psychopathology, neuroscience, or computational modeling. Articles in JEP: General may be longer than the usual journal publication if necessary, but shorter articles that bridge subdisciplines will also be considered.
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