运动学运动定律的神经表征：动作 - 感知耦合的证据。

Neural representations of kinematic laws of motion: evidence for action-perception coupling.

作者信息

Dayan Eran, Casile Antonino, Levit-Binnun Nava, Giese Martin A, Hendler Talma, Flash Tamar

机构信息

Departments of Computer Science and Applied Mathematics, Neurobiology, and Physics of Complex Systems, The Weizmann Institute of Science, Rehovot 76100, Israel.

出版信息

Proc Natl Acad Sci U S A. 2007 Dec 18;104(51):20582-7. doi: 10.1073/pnas.0710033104. Epub 2007 Dec 13.

DOI:10.1073/pnas.0710033104

PMID:18079289

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2154474/

Abstract

Behavioral and modeling studies have established that curved and drawing human hand movements obey the 2/3 power law, which dictates a strong coupling between movement curvature and velocity. Human motion perception seems to reflect this constraint. The functional MRI study reported here demonstrates that the brain's response to this law of motion is much stronger and more widespread than to other types of motion. Compliance with this law is reflected in the activation of a large network of brain areas subserving motor production, visual motion processing, and action observation functions. Hence, these results strongly support the notion of similar neural coding for motion perception and production. These findings suggest that cortical motion representations are optimally tuned to the kinematic and geometrical invariants characterizing biological actions.

摘要

行为学和模型研究已经证实，弯曲和绘制人类手部动作遵循2/3幂律，该定律表明运动曲率和速度之间存在强耦合。人类的运动感知似乎反映了这种约束。本文报道的功能磁共振成像研究表明，大脑对这种运动定律的反应比对其他类型运动的反应要强烈得多且更广泛。对该定律的遵循体现在一个服务于运动产生、视觉运动处理和动作观察功能的大脑区域大网络的激活上。因此，这些结果有力地支持了运动感知和产生具有相似神经编码的观点。这些发现表明，皮层运动表征被最佳地调整到表征生物动作的运动学和几何不变量上。

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