Brain Inspired Navigation Blog

Tag: Navigation

How can navigation be performed in primates and humans using spatial view cells?

Rolls, Edmund T. “Neurons including hippocampal spatial view cells, and navigation in primates including humans.” Hippocampus (2021).

Abstract
“A new theory is proposed of mechanisms of navigation in primates including humans in which spatial view cells found in

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How does the retrosplenial cortex combine internal and external cues to encode head velocity during navigation?

Sepiedeh Keshavarzi, Edward F. Bracey, Richard A. Faville, Dario Campagner, Adam L. Tyson, Stephen C. Lenzi, Tiago Branco, Troy W. Margrie. The retrosplenial cortex combines internal and external cues to encode head velocity during navigation. bioRxiv 2021.01.22.427789; doi: https://doi.org/10.1101/2021.01.22.427789…

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How does the secondary motor cortex transform spatial information into planned action during navigation?

Jacob M.Olson, Jamie K.Li, Sarah E.Montgomery, Douglas A.Nitz. Secondary Motor Cortex Transforms Spatial Information into Planned Action during Navigation. Current Biology, Volume 30, Issue 10, 18 May 2020, Pages 1845-1854.e4

Summary
Fluid navigation requires constant updating of planned

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How can local sensory signals be transformed into a global, multimodal, abstract representation of space for navigation?

Okubo T., Patella P., D’Alessandro I., and Wilson RI. “A Neural Network for Wind-Guided Compass Navigation.” Neuron, 2020, 107, Pp. 1-17

Summary
“Spatial maps in the brain are most accurate when they are linked to external sensory cues. …

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How May the Brain Encode Time from A Spatial Navigation Perspective?

John B. Issa, Gilad Tocker, Michael E. Hasselmo, James G. Heys, Daniel A. Dombeck. Navigating Through Time: A Spatial Navigation Perspective on How the Brain May Encode Time. Annual Review of Neuroscience 2020 43:1

Abstract
Interval timing, which

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How an ant navigates the desert?

Rüdiger Wehner. Desert Navigator: The Journey of an Ant [M]. Harvard University Press, 2020.

About the Book

“A world-renowned researcher of animal behavior reveals the extraordinary orienteering skills of desert ants, offering a thrilling account of the sophisticated ways insects

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How different sensory streams are integrated to drive spatial navigation in the brain?

Currier, Timothy A., and Katherine I. Nagel. “Multisensory control of navigation in the fruit fly.” Current Opinion in Neurobiology 64 (2020): 10-16.

Spatial navigation is influenced by cues from nearly every sensory modality and thus provides an …

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What could be the computational benefits of such a mapping between intrinsic dynamical structure and external sensory inputs for navigation in the brain?

Christian Leibold. A Model for Navigation in Unknown Environments Based on a Reservoir of Hippocampal Sequences
bioRxiv 2019.12.18.880583; doi: https://doi.org/10.1101/2019.12.18.880583

Abstract
“Hippocampal place cell populations are activated in sequences on multiple time scales during active behavior, resting and sleep …

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How the Spiking Neural Network allows for navigation through an environment via landmark association without needing GPS?

Alexander Jones, Andrew Rush, Cory Merkel, Eric Herrmann, Ajey P. Jacob, Clare Thiem, Rashmi Jha. A neuromorphic SLAM architecture using gated-memristive synapses. Neurocomputing, 2019, https://doi.org/10.1016/j.neucom.2019.09.098.

Abstract
Navigation in GPS-denied environments is a critical challenge for autonomous mobile platforms

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How the brain performs spatial coordinate transforms for navigation?

Rolls, ET. Spatial coordinate transforms linking the allocentric hippocampal and egocentric parietal primate brain systems for memory, action in space, and navigation. Hippocampus. 2019; 1– 22. https://doi.org/10.1002/hipo.23171

Abstract
“A theory and model of spatial coordinate transforms in the dorsal …

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How is the retrosplenial cortex uniquely suited to carry out spatial memory and navigation computations?

Ellen K.W. Brennan, Shyam Kumar Sudhakar, Izabela Jedrasiak-Cape, Omar J. Ahmed. Uniquely excitable neurons enable precise and persistent information transmission through the retrosplenial cortex. bioRxiv 673954; doi: https://doi.org/10.1101/673954

ABSTRACT

The retrosplenial cortex (RSC) is essential for both memory and

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How your brain encodes location?

A latest report titled ‘The Surprising Relativism of the Brain’s GPS’ by ADITHYA RAJAGOPALAN at Cohen Lab, JOHNS HOPKINS UNIVERSITY, reviewed the brief research history of the Brain’s GPS published in  NAUTILUS

For further info, please read the report …

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How landmark and self-motion cues combine during navigation to generate spatial representations?

The excerpt note is about how combine landmark and self-motion cues for navigation from Campbell et al., 2018.

Campbell, Malcolm G., Samuel A. Ocko, Caitlin S. Mallory, Isabel I. C. Low, Surya Ganguli & Lisa M. Giocomo. Principles governing the

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iNav 2018: How does the brain know where it is, where it is going, and how to get from one place to another?

The 2nd Interdisciplinary Navigation Symposium (iNav 2018) was held in June 2018 in Québec, Canada, organized by Jeffery Taube, Thomas Wolbers, Kate Jeffery, Laure Rondi-Reig, David Dickman, Mayank Mehta. The meeting aims to bring together a diverse group of scientists …

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Dynamic Vision Sensor (DVS)

From inilabs.com

DVS Overview

Dvs128AndEdvsWithCreditCardConventional vision sensors see the world as a series of frames. Successive frames contain enormous amounts of redundant information, wasting memory access, RAM, disk space, energy, computational power and time. In addition, each frame imposes the …

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Brain Inspired Navigation Blog

New discovery worth spreading on brain-inspired navigation in neurorobotics and neuroscience

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