Interactions between eye and head control signals can account for movement kinematics

Freedman EG.

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Interactions between eye and head control signals can account for movement kinematics

机译：眼睛和头部控制信号之间的相互作用可以解释运动学

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Advances in understanding the neural control of saccades (visual orienting movements made when the head is prevented from moving) stem largely from early modeling efforts which provided a framework for developing and testing hypotheses about the relationships between neural activity and observed behaviors. When the head is free to move, visual orienting is often accomplished with coordinated movements of the eyes and head. A recent description of the temporal progression (i.e., kinematics) of these movements led to the hypothesis that eye and head control signals interact. This hypothesis is now formalized as a control systems model which accounts for existing data and makes explicit predictions about the neural control of orienting gaze shifts. [References: 29]

机译：理解扫视的神经控制（防止头部移动时进行视觉定向运动）的进步很大程度上源于早期的建模工作，这为开发和测试关于神经活动与观察到的行为之间的关系的假设提供了框架。当头部自由移动时，视觉定向通常通过眼睛和头部的协调运动来完成。对这些运动的时间进展（即运动学）的最新描述导致了眼睛和头部控制信号相互作用的假设。现在将该假设正式化为控制系统模型，该模型考虑了现有数据并做出了有关定向视线移动的神经控制的明确预测。 [参考：29]

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《Biological Cybernetics: Communication and Control in Organisms and Automata: = Nachrichtenubertragung, Nachrichtenverarbeitung, Steuerung und Regelung in Organismen und in Automaten 》 |2001年第6期| 共10页
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Freedman EG.;
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中图分类理论生物物理学 ;
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1. Interactions between eye and head control signals can account for movement kinematics [J] . Freedman EG. Biological Cybernetics: Communication and Control in Organisms and Automata: = Nachrichtenubertragung, Nachrichtenverarbeitung, Steuerung und Regelung in Organismen und in Automaten . 2001 ,第6期

机译：眼睛和头部控制信号之间的相互作用可以解释运动学
2. Eye-Pursuit and Reafferent Head Movement Signals Carried by Pursuit Neurons in the Caudal Part of the Frontal Eye Fields during Head-Free Pursuit [J] . Kikuro Fukushima1 Satoshi Kasahara13 Teppei Akao1 Sergei Kurkin1 Junko Fukushima13 and Barry W. Peterson2 Cerebral Cortex . 2009 ,第2期

机译：无头追踪时，额叶视场尾部的追踪神经元携带的追踪眼和后脑的头移动信号
3. Interaction between visual and vestibular signals for the control of rapid eye movements. [J] . Van Beuzekom AD, Van Gisbergen JA Journal of Neurophysiology . 2002 ,第1期

机译：视觉和前庭信号之间的相互作用，用于控制快速的眼球运动。
4. EYE POINTER: A Real Time Cost Effective Computer Controlling System Using Eye and Head Movement [C] . Shahed Anzarus Sabab, Sayed Rizban Hussain, Hasan Mahmud, International Conference on Advances in Computer-Human Interactions . 2016

机译：眼睛指针：使用眼睛和头部运动的实时成本有效的计算机控制系统
5. Innovative and interactive assistive technology controlling system using eye detection and head movements. [D] . Al-Rahayfeh, Amer. 2014

机译：利用眼睛检测和头部运动的创新和交互式辅助技术控制系统。
6. Eye-Pursuit and Reafferent Head Movement Signals Carried by Pursuit Neurons in the Caudal Part of the Frontal Eye Fields during Head-Free Pursuit [O] . Kikuro Fukushima, Satoshi Kasahara, Teppei Akao, -1

机译：无头追踪时额叶视场尾部的追踪神经元携带的追踪眼和后脑的头移动信号
7. Eye-Pursuit and Reafferent Head Movement Signals Carried by Pursuit Neurons in the Caudal Part of the Frontal Eye Fields during Head-Free Pursuit [O] . Fukushima, Kikuro, Kasahara, Satoshi, Akao, Teppei, 2008

机译：无头追赶过程中追逐神经元在额叶视场的尾部尾部发出的眼追索和令人反感的头部运动信号
8. Relationship Among Eye Movements, Head Movements, and Manual Responses in aSimulated Air Traffic Control Task [R] . Boyer, D. J. 1995

机译：模拟空中交通管制任务中的眼动，头部动作和手动响应之间的关系

Interactions between eye and head control signals can account for movement kinematics

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