论计算能力的演变。

Frontiers in evolutionary neuroscience Pub Date : 2010-06-23 eCollection Date: 2010-01-01 DOI:10.3389/fnevo.2010.00007
Alfredo Ardila
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引用次数: 18

摘要

在动物身上可以观察到一些数字知识,比如对小量的即时识别。算术能力的发展既存在于人类的进化过程中,也存在于儿童的发展过程中。算术能力在人类历史上出现的时间相对较晚,而且显然与数数有关,也就是说,大声说出一系列与一组物体相对应的数字单词。计数可能是从手指排序开始的,这也许可以解释大多数数字系统中都有10个碱基。从神经心理学的角度来看,数字知识和手指识别之间有很强的关系,在左后顶叶损伤(角状或Gerstmann综合征)的情况下,两者都受损。在人类历史上,数字书写比书面语言出现得更早。位置数字值在巴比伦语中很明显,在公元前1000年左右,零被引入。当代神经成像技术,特别是功能磁共振成像技术,已经证明,左顶叶,特别是顶叶内沟,在多种任务中被系统地激活;其他区域,特别是额叶,也参与处理数字信息和解决算术问题。可以推测,由于数学知识的进步和新技术的引入,计算能力不断发展。
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On the evolution of calculation abilities.

Some numerical knowledge, such as the immediate recognition of small quantities, is observed in animals. The development of arithmetical abilities found in man's evolution as well as in child's development represents a long process following different stages. Arithmetical abilities are relatively recent in human history and are clearly related with counting, i.e., saying aloud a series of number words that correspond to a collection of objects. Counting probably began with finger sequencing, and that may explain the 10-base found in most numerical systems. From a neuropsychological perspective, there is a strong relationship between numerical knowledge and finger recognition, and both are impaired in cases of left posterior parietal damage (angular or Gerstmann's syndrome). Writing numbers appeared earlier in human history than written language. Positional digit value is clearly evident in Babylonians, and around 1,000 BC the zero was introduced. Contemporary neuroimaging techniques, specifically fMRI, have demonstrated that the left parietal lobe, particularly the intraparietal sulcus, is systematically activated during a diversity of tasks; other areas, particularly the frontal lobe, are also involved in processing numerical information and solving arithmetical problems. It can be conjectured that numerical abilities continue evolving due to advances in mathematical knowledge and the introduction of new technologies.

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