Natural encoding of information through interacting impulses

摘要

Standard unit of information Bit generates any natural process through discrete (yes-no) interactions, including interactive macro impulses in classical physics and elementary micro impulses of quantum interactions. The elementary interactions of random impulses measures (yes-no) probability events according to Kolmogorov 1-0 law for random process. In a natural interactive process, each impulse step-down action cuts the correlations of the process prior interactive events. This cuts the process entropy, defined by its probability, memorizing the cutting entropy as information hidden in the correlation. Memory “freezes” the information impulse in the cutting off correlation. The interactive impulse reveals information as phenomenon of interaction. The interval of each interaction holds quantity of energy. Each Bit is naturally extracted or erased at the cost of cutting this energyand encoding information in the interacting physical state (by the impulse step-up action). The impulse sequential natural encoding merges memory with the time of memorizing information and compensates the cutting cost by running time intervals of encoding. The information process, preserving the invariant impulse cutting information, binds the inner impulse reversible microprocess and the multiple impulses irreversible macroprocess in information dynamics. The encoding process unites the information path functional integratingobserver's geometrical cellular information structurewhich composes rotating helix of the sequencing cells Bits. This natural encoding satisfied Landauer principle and compensates for the cost of Maxwell Demon. The energy of specific interaction limits the universal code length and density. The conditions and results validate the computer simulation, multiple experiments in coding genetic information, experimental encoding by spiking neurons, others.