The idea is that memories are held within the crystal structures of the glial supporting the neural network of the human nervous system.
Instead of memories being of hard wiring of binary networking, the memories signal is held in a photonic crystal that maintains a specific set of properties.
In which the amount of variation can be held in the brain but then in the motor neurons the mylean sheath in composed of a high concentration of glial upon the axon of the neuron, in which the muscles are reactive in the on off, so the support of the glial is refractive to increase the total potential. i.e… the idea of muscle memory.
With this below coupled with polaritonics; it seems that the understanding of the neural network can be furthered.
Instead of memories being of hard wiring of binary networking, the memories signal is held in a photonic crystal that maintains a specific set of properties.
In which the amount of variation can be held in the brain but then in the motor neurons the mylean sheath in composed of a high concentration of glial upon the axon of the neuron, in which the muscles are reactive in the on off, so the support of the glial is refractive to increase the total potential. i.e… the idea of muscle memory.
With this below coupled with polaritonics; it seems that the understanding of the neural network can be furthered.
Systems, Man, and Cybernetics, 1994. apos ;Humans, Information and Technologyapos;., 1994 IEEE International Conference on
recurrent networks have ability to work with temporal inputs and outputs. So the signal can be input directly to the network without preprocessing like time-windowing and without having direct dependency between signal duration and number of neurons. Crystal organisation of neurons has already been proposed by a number of neurobiologists but less work has been done to study properties of such ANNs.
Experimental Ophthalmology Laboratory, Department of Physiology, University of Geneva School of Medicine, Geneva, Switzerland
We have shown that in this nervous tissue, with crystal-like structure, in which glial cells and photoreceptor neurons constitute two distinct metabolic compartments, glial cells transform glucose to alanine and, with proline, fuel the mitochondria of the photoreceptors.
Department of Biochemistry and Molecular Biophysics, Columbia University, New York, New York 10032, USA
P0, the major protein of peripheral nerve myelin, mediates membrane adhesion in the spiral wraps of the myelin sheath. We have determined the crystal structure of the extracellular domain from P0 (P0ex) at 1.9 A resolution
We present crystal structures of the Delta isoforms of the LNS domains from beta-NRX1 and beta-NRX2, crystallized in the presence of Ca(2+) ions. The Ca(2+)-binding site is disordered in the beta-NRX2 structure, but the 1.7 A beta-NRX1 structure reveals a single Ca(2+) ion, approximately 12 A from the splice insertion site, with one coordinating ligand donated by a glutamic acid from an adjacent beta-NRX1 molecule. NMR studies of beta-NRX1+4 show that the insertion sequence is unstructured, and remains at least partially disordered in complex with NL. These results raise the possibility that beta-NRX insertion sequence 4 may function in roles independent of neuroligin binding