Lautrey Jacques
Institut de Psychologie, Paris Descartes University, 71 Avenue Edouard Vaillant, 92774 Boulogne-Billancourt, France.
J Intell. 2018 Mar 8;6(1):15. doi: 10.3390/jintelligence6010015.
Some cognitive functions shared by humans and certain animals were acquired early in the course of phylogeny and, in humans, are operational in their primitive form shortly after birth. This is the case for the quantification of discrete objects. The further phylogenetic evolution of the human brain allows such functions to be reconstructed in a much more sophisticated way during child development. Certain functional characteristics of the brain (plasticity, multiple cognitive processes involved in the same response, interactions, and substitution relationships between those processes) provide degrees of freedom that open up the possibility of different pathways of reconstruction. The within- and between-individual variability of these developmental pathways offers an original window on the dynamics of development. Here, I will illustrate this theoretical approach to cognitive development-which can be called "reconstructivist" and "pluralistic"-using children's construction of number as an example.
人类和某些动物共有的一些认知功能是在系统发育过程早期获得的,在人类中,这些功能在出生后不久就以其原始形式发挥作用。离散物体的量化就是这种情况。人类大脑的进一步系统发育进化使得这些功能在儿童发育过程中能够以一种更加复杂的方式重建。大脑的某些功能特征(可塑性、同一反应中涉及的多个认知过程、这些过程之间的相互作用和替代关系)提供了自由度,从而开启了不同重建途径的可能性。这些发育途径在个体内部和个体之间的变异性为发育动态提供了一个独特的窗口。在这里,我将以儿童对数字的建构为例,说明这种认知发展的理论方法,这种方法可以被称为“重构主义”和“多元主义”。