Cronicon OPEN ACCESS EC NEUROLOGY EC NEUROLOGY Short Communication Asymptotic Freedom of Motion: What Grid Cells Tell about Memory Formation and “Free Will”? Milan Jovovic* Mentorship, The New York Academy of Sciences, USA *Corresponding Author: Milan Jovovic, Mentorship, The New York Academy of Sciences, USA. Received: January 02, 2023; Published: February 16, 2023 Citation: Milan Jovovic. “Asymptotic Freedom of Motion: What Grid Cells Tell about Memory Formation and “Free Will”?”. EC Neurology 15.2 (2023): 18-20. We have studied dynamics of information flow in scale-space. Asymptotic freedom of motion has been discussed in terms of the polynomial decomposition of its probability distribution and the fine structure constant. A theory of multidimensional information scaling in 5D has been derived. We propose a genotype information processing and the principle of holographic representation. Synergies of information binding have been shown. In this article we reflect on information processing of the patterns of signals recorded in the brain. Two experiments are discussed with regard to memory formation and sensing complex environments. Keywords: Freedom of Motion; Grid Cells; Memory Formation Abstract The whole is more than the sum of its parts I came into the field of Neuroscience when mostly single cell recordings were used in the labs. Selective responses to familiar faces in the visual cortex had been found, adding to a discussion of the so-called grand-mother cells. Like, what happens if they get damaged dur- ing a recording session or die naturally? A Gestalt school of perception came as a starting point in the observation. In quantitative sciences and engineering, separating parts from its whole has been long studied with its limitations, in a language of mathematics. Synergistic information binding in 5D Probing dynamics of information flow, in scale-space, have been described in our reports. Internal states of networked neural systems are compared by its interaction with the environment via coupled information propagation. Multidimensional scaling property of an atomic structure has been derived within the theory of stochastic resonance synergies. Circu- lar motion patterns, encoding information in the atomic structures, have been analysed.