Place recognition is a complex process involving idiothetic and allothetic information. In mammals, evidence suggests that visual information stemming from the temporal and parietal cortical areas (‘what’ and ‘where’ information) is merged at the level of the entorhinal cortex (EC) …
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 …
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 …
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 …
Most animals, including humans, are able to flexible navigate the complex world. They can explore new areas, returning quickly to remembered places, and taking shortcuts. The recent discovery in neuroscience, including place cells, grid cells, head direction cells, border cells, …
Brief content From ScienceNews BY AMBER DANCE 12:30PM, SEPTEMBER 20, 2017
Neuroscientist Nachum Ulanovsky and his colleagues of the Weizmann Institute of Science in Rehovot, Israel, studying several different species of bats, are investigating how the flying mammals perceive …
The following lectures are presented in the NEUROSCIENCE SYMPOSIUM : BRAIN MECHANISMS OF NAVIGATION IN PHYSICAL AND COGNITIVE SPACES at Central European University in August 31, 2017.
This is a special symposium with four outstanding scientist (three Nobel laureates and one Brain Prize winner) …
Brain Inspired Navigation Blog
New discovery worth spreading on brain-inspired navigation in neurorobotics and neuroscience