上丘映射的几何学与高效的眼球运动计算

Geometry of the superior colliculus mapping and efficient oculomotor computation.

作者信息

Tabareau Nicolas, Bennequin Daniel, Berthoz Alain, Slotine Jean-Jacques, Girard Benoît

机构信息

UMR 7152, Laboratoire de Physiologie de la Perception et de l'Action, CNRS-Collège de France, Paris, France.

出版信息

Biol Cybern. 2007 Oct;97(4):279-92. doi: 10.1007/s00422-007-0172-2. Epub 2007 Aug 10.

DOI:10.1007/s00422-007-0172-2

PMID:17690902

Abstract

Numerous brain regions encode variables using spatial distribution of activity in neuronal maps. Their specific geometry is usually explained by sensory considerations only. We provide here, for the first time, a theory involving the motor function of the superior colliculus to explain the geometry of its maps. We use six hypotheses in accordance with neurobiology to show that linear and logarithmic mappings are the only ones compatible with the generation of saccadic motor command. This mathematical proof gives a global coherence to the neurobiological studies on which it is based. Moreover, a new solution to the problem of saccades involving both colliculi is proposed. Comparative simulations show that it is more precise than the classical one.

摘要

许多脑区通过神经元图谱中活动的空间分布来编码变量。其特定的几何结构通常仅从感觉方面来解释。我们在此首次提出一种涉及上丘运动功能的理论，以解释其图谱的几何结构。我们依据神经生物学采用六个假设，以表明线性和对数映射是仅与扫视运动指令生成兼容的映射。这一数学证明为其所基于的神经生物学研究赋予了整体连贯性。此外，还提出了一个涉及双侧上丘的扫视问题的新解决方案。比较模拟表明，它比经典方案更精确。

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Geometry of the superior colliculus mapping and efficient oculomotor computation.上丘映射的几何学与高效的眼球运动计算

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上丘映射的几何学与高效的眼球运动计算

Geometry of the superior colliculus mapping and efficient oculomotor computation.

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