The sequential organization of movement is critical to the development of reaching: A neural dynamics account

2015 Joint IEEE International Conference on Development and Learning and Epigenetic Robotics (ICDL-EpiRob) Pub Date : 2015-12-07 DOI:10.1109/DEVLRN.2015.7346113

Stephan K. U. Zibner, Jan Tekülve, G. Schöner

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引用次数: 2

Abstract

We present a neuro-dynamic model of looking, reaching, and grasping movements in infants in three pre-reaching phases. We attribute the evolution from pre-reaches to their suppression and subsequent re-emergence reported in a longitudinal study of von Hofsten [1] to the development of the sequential organization of movements, through which a set of elementary movements (visual fixation, reaching, opening the hand) are coordinated in time. The spatial precision hypothesis, which has emerged from work on spatial, visual, and action working memory, characterizes developmental changes as a change from strongly input-driven to more strongly interaction-dominated neural dynamics. Applying this hypothesis to reaching, we propose that the intention to reach is increasingly able to suppress competing movement behaviors, enabling object-oriented reaches. We evaluate three versions of the model that capture the three phases reported by von Hofsten and illustrate the properties of the movement model in simulations and in demonstration on a NAO robot.

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运动的顺序组织对伸展的发展是至关重要的:一个神经动力学的解释

我们提出了一个神经动力学模型的看，伸手，和抓取运动在三个前伸手阶段的婴儿。在von Hofsten[1]的纵向研究中，我们将从预伸手到其抑制和随后的重新出现的演变归因于连续运动组织的发展，通过该发展，一系列基本运动(视觉注视、伸手、张开手)在时间上协调一致。空间精度假说来源于对空间、视觉和动作工作记忆的研究，它将发育变化描述为从强烈的输入驱动到更强烈的相互作用主导的神经动力学的变化。将这一假设应用于到达，我们提出到达的意图越来越能够抑制竞争运动行为，从而实现面向对象的到达。我们评估了捕获von Hofsten报告的三个阶段的模型的三个版本，并在NAO机器人的仿真和演示中说明了运动模型的特性。

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2015 Joint IEEE International Conference on Development and Learning and Epigenetic Robotics (ICDL-EpiRob)

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