空间定向和前庭性眼球震颤的最优估计模型。

Optimal estimator models for spatial orientation and vestibular nystagmus.

机构信息

Man-Vehicle Laboratory, Department of Aeronautics and Astronautics, Massachusetts Institute of Technology (37-219), Cambridge, MA 02139-4307, USA.

出版信息

Exp Brain Res. 2011 May;210(3-4):465-76. doi: 10.1007/s00221-011-2595-1. Epub 2011 Mar 18.

DOI:10.1007/s00221-011-2595-1

PMID:21416377

Abstract

Mathematical models have played an important role in research on the vestibular system over the past century, from the torsion pendulum analogies of the semicircular canal to the optimal estimator "observer" models of multisensory interaction and adaptation. This short review is limited to our own contributions in bringing the technology of feedback control theory to bear on the understanding of human spatial orientation, eye movements, and nystagmus, both on Earth and in space. It points to the importance of the "internal model" concept for treatment of the manner in which the brain constantly makes predictions about future sensory feedback, adjusts the weightings of sensors according to their signal-to-noise ratios, and adapts control according to the motion environment, and availability of sensory cues.

摘要

在过去的一个世纪里，数学模型在研究前庭系统方面发挥了重要作用，从半规管的扭转摆类比到多感觉相互作用和适应的最优估计“观测器”模型。这篇简短的综述仅限于我们自己在将反馈控制理论技术应用于理解人类空间定位、眼球运动和眼震方面的贡献，无论是在地球上还是在太空中。它指出了“内部模型”概念的重要性，用于处理大脑不断对未来感觉反馈做出预测的方式，根据传感器的信噪比调整传感器的权重，并根据运动环境和感觉线索的可用性调整控制。

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空间定向和前庭性眼球震颤的最优估计模型。

Optimal estimator models for spatial orientation and vestibular nystagmus.

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