Positioning is All You Need

One can drive safely with a GPS without memorizing a world map (not to mention the dark regions that humans have never explored). Such a locality-based attention mechanism has a profound implication on our understanding of how the brain works. This paper refines the existing embodied cognition framework by turning the locality from a constraint to an advantage. Analogous to GPS-based navigation, positioning represents a computationally more efficient solution to flexible behaviors than reconstruction. This simple intuition implies that {\em positioning is all you need} to understand cognitive functions generated by hippocampal-neocortical systems. That is, the neocortex generates thousands of local maps whose indexing is maintained by the hippocampus. Geometrically, we present a simple manifold positioning framework to explain the principle of localized embodied cognition. The positioning operation implemented by the attention mechanism can be interpreted as a nonlinear projection linking the discovery of local subspace structure by the neocortex (a sensorimotor machine interacting with the world locally) for the navigation task in mind without discovering global manifold topology.