Category: Neural Basis of Navigation

Are there different kinds of head direction cells in the brain?

Dudchenko, Paul A., Emma R. Wood, and Anna Smith. “A new perspective on the head direction cell system and spatial behavior.” Neuroscience & Biobehavioral Reviews (2019).

Highlights
• Damage to the head direction circuit produces only modest impairments …

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How the brain remembers where you’re heading to?

Kunz, Lukas, Liang Wang, Daniel Lachner-Piza, Hui Zhang, Armin Brandt, Matthias Dümpelmann, Peter C. Reinacher et al. “Hippocampal theta phases organize the reactivation of large-scale electrophysiological representations during goal-directed navigation.” Science Advances 5, no. 7 (2019): eaav8192.

Abstract
Humans are

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How to implement 6DoF state estimation on 3D manifold based on neural dynamics?

State estimation in high dimensional space is a big challenge problem. Commonly, we use Lie group to implement 6DoF state estimation in 3D space. However, how does the brain implement path integration in 3D space based on neural dynamics?

Low …

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How the brain controls movement in high dimensional space?

Gallego, Juan A., Matthew G. Perich, Lee E. Miller, and Sara A. Solla. “Neural manifolds for the control of movement.” Neuron 94, no. 5 (2017): 978-984.

Abstract

The analysis of neural dynamics in several brain cortices has consistently …

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3D Grid Cell Visualisation Software

3D grid cell visualisation software was developed by Misun Kim at the Memory and Space Laboratory of Professor Eleanor Maguire, Wellcome Centre for Human Neuroimaging, University College London, London, UK.

This software has two main goals.

First, to visualize the

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Whether entorhinal velocity signals are equally influenced or provide a universal metric for self-motion across environments?

Munn, Robert GK, Caitlin S. Mallory, Kiah Hardcastle, Dane M. Chetkovich, and Lisa M. Giocomo. “Entorhinal velocity signals reflect environmental geometry.” bioRxiv (2019): 671222. doi: https://doi.org/10.1101/671222

Summary
The entorhinal cortex contains neural signals for representing self-location, including grid

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How Does the Brain Solve the Computational Problems of Spatial Navigation?

Widloski, John, and Ila Fiete. “How does the brain solve the computational problems of spatial navigation?.” In Space, Time and Memory in the Hippocampal Formation, pp. 373-407. Springer, Vienna, 2014.

Abstract
Flexible navigation in the real world involves …

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CogNav Blog

New discovery worth spreading on cognitive navigation in neurorobotics and neuroscience

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