Brain Inspired Navigation Blog

Tag: 3D Navigation

The flying cars are coming soon, how to overcome the challenge of autonomous flying vehicle navigation?

A report titled ‘Elevating the future of mobility: Passenger drones and flying cars‘ by Robin Lineberger, Aijaz Hussain, Siddhant Mehra, Derek M. Pankratz has published on the deloitte.com at January 18, 2018. 

 

 

How to overcome the

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How 3D grid cells encode 3D physical space in the human brain?

Novel fantastic research about 3D grid cells in the human brain by Dr. Misun Kim and Professor Eleanor A. Maguire in paper Kim et al. 2019 

Misun Kim, Eleanor A. Maguire. Can we study 3D grid codes non-invasively in the

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How three-dimensional (3D) direction information is encoded in the human brain?

Novel fantastic research about 3D head direction cells in the human brain by Dr. Misun Kim and Professor Eleanor A. Maguire in paper Kim et al. 2018.

Misun Kim, Eleanor A. Maguire. Encoding of 3D head direction information in the

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How do bats navigate in 3D environments?

The excerpt note is about bat navigation from Yovel & Ulanvosky 2017.

Yovel, Yossi, and Nachum Ulanvosky. “1.18 Bat Navigation.” Learning and Memory: A Comprehensive Reference (2017): 333.

Navigation, the capacity to plan and execute a goal-directed path,

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How to unlock the secrets of 3D navigation in the brain?

A Nature  News Feature report the research story of 3D navigation in  Nachum Ulanovsky lab. Titled “100 bats and a long, dark tunnel: one neuroscientist’s quest to unlock the secrets of 3D navigation” published in Nature News at …

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Why is it a so difficult problem for navigating in a three-dimensional world?

The excerpt note is about spatial cognition in non-horizontal environments by Jeffery K. J. et al., 2013.

Jeffery, Kathryn J., Aleksandar Jovalekic, Madeleine Verriotis, and Robin Hayman. “Navigating in a three-dimensional world.” Behavioral and Brain Sciences 36, no. …

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3D SLAM: the grand challenge and ultimate goal for robotic perception.

Real-world applications in GPS-denied environments require robust mapping and perception techniques to enable mobile systems to autonomously navigate complex 3D environments.

Robotic environments are in general 3D, involving translation in three directions, x, y, and z, and rotation around three …

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3D Spatial Representation: Coding of 3D space by 3D Grid Cells, 3D Border Cells, 3D Head Direction Cells

Latest reports about 3D Spatial Representation by Gily Ginosar at Weizmann Institute of Science and Misun Kim at UCL in the Grid Cell Meeting on May 21-22, 2018. (http://www.cognitive-map.com/img/GCMposters.pdf )

Gily Ginosar, Weizmann Institute of Science

Grid cells recorded

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Bat brains: Studies of free-flying bats reveal nerve cells that enable complex navigation.

Bat brain signals illuminate navigation in the dark

brown bat

Read more in the Science News https://www.sciencenews.org/article/bat-brain-signals-illuminate-navigation-dark 

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Brain Inspired Navigation Blog

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

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