The head direction cell network: attractor dynamics, integration within the navigation system, and three-dimensional properties

Angelaki Dora E.; Laurens Jean

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The head direction cell network: attractor dynamics, integration within the navigation system, and three-dimensional properties

机译：头部方向单元网络：吸引子动态，导航系统内的集成以及三维属性

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Knowledge of head direction cell function has progressed remarkably in recent years. The predominant theory that they form an attractor has been confirmed by several experiments. Candidate pathways that may convey visual input have been identified. The pre-subicular circuitry that conveys head direction signals to the medial entorhinal cortex, potentially sustaining path integration by grid cells, has been resolved. Although the neuronal substrate of the attractor remains unknown in mammals, a simple head direction network, whose structure is astoundingly similar to neuronal models theorized decades earlier, has been identified in insects. Finally, recent experiments have revealed that these cells do not encode head direction in the horizontal plane only, but also in vertical planes, thus providing a 3D orientation signal.

机译：近年来，对头方向细胞功能的了解显着进展。几个实验证实了它们形成吸引子的主要理论。已经识别了可以传达视觉输入的候选路径。已经解决了将头部方向信号传递到内侧熵皮质，潜在地维持通过网格单元的路径集成的预核电路已经得到解决。尽管吸引物的神经元基质在哺乳动物中仍然未知，但是在昆虫中已经识别了一种简单的头部方向网络，其结构与神经元模型相似。最后，最近的实验揭示了这些细胞在垂直平面中仅在水平面中没有编码头部方向，从而提供3D方向信号。

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《Current Opinion in Neurobiology》 |2020年第2020期|共9页
作者
Angelaki Dora E.; Laurens Jean;
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Baylor Coll Med Dept Neurosci Houston TX 77030 USA;

Baylor Coll Med Dept Neurosci Houston TX 77030 USA;

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正文语种 eng
中图分类神经病学;
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1. The head direction cell network: attractor dynamics, integration within the navigation system, and three-dimensional properties [J] . Angelaki Dora E., Laurens Jean Current Opinion in Neurobiology . 2020,第期

机译：头部方向单元网络：吸引子动态，导航系统内的集成以及三维属性
2. Non-rhythmic head-direction cells in the parahippocampal region are not constrained by attractor network dynamics [J] . Olga Kornienko, Patrick Latuske, Mathis Bassler, eLife journal . 2018,第september期

机译：海马旁区域的非节律性头部细胞不受吸引网络动力学的约束
3. Non-rhythmic head-direction cells in the parahippocampal region are not constrained by attractor network dynamics [J] . Olga Kornienko, Patrick Latuske, Mathis Bassler, eLife journal . 2018,第october期

机译：海马旁区域的非节律性头部细胞不受吸引网络动力学的约束
4. An implementation of the path integrator mechanism of head direction cells for bio-mimetic navigation [C] . Sinha Ankur, Wang Jack International Joint Conference on Neural Networks . 2014

机译：仿生导航头部细胞路径整合机制的实现
5. A neural model of head direction calibration during spatial navigation: Learned integration of visual, vestibular, and motor cues. [D] . Fortenberry, Bret. 2012

机译：空间导航过程中头部方向校准的神经模型：学习了视觉，前庭和运动线索的集成。
6. Non-rhythmic head-direction cells in the parahippocampal region are not constrained by attractor network dynamics [O] . Olga Kornienko, Patrick Latuske, Mathis Bassler, 2015

机译：海马旁区域的非节律性头部细胞不受吸引网络动态的约束
7. A continuous attractor network model without recurrent excitation: maintenance and integration in the head direction cell system. [O] . Boucheny, Christian, Brunel, Nicolas, Arleo, Angelo 2005

机译：没有递归激发的连续吸引网络模型：头部细胞系统的维护和集成。
8. Statistical Properties of Chaotic Dynamical Systems Which Exhibit Strange Attractors [R] . Jensen, R. V., Oberman, C. R. 1981

机译：具有奇异吸引子的混沌动力系统的统计性质

The head direction cell network: attractor dynamics, integration within the navigation system, and three-dimensional properties

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