Vol 9: Production and Transfer of Energy and Information in Hamiltonian Systems.Report as inadecuate



 Vol 9: Production and Transfer of Energy and Information in Hamiltonian Systems.


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This article is from PLoS ONE, volume 9.AbstractWe present novel results that relate energy and information transfer with sensitivity to initial conditions in chaotic multi-dimensional Hamiltonian systems. We show the relation among Kolmogorov-Sinai entropy, Lyapunov exponents, and upper bounds for the Mutual Information Rate calculated in the Hamiltonian phase space and on bi-dimensional subspaces. Our main result is that the net amount of transfer from kinetic to potential energy per unit of time is a power-law of the upper bound for the Mutual Information Rate between kinetic and potential energies, and also a power-law of the Kolmogorov-Sinai entropy. Therefore, transfer of energy is related with both transfer and production of information. However, the power-law nature of this relation means that a small increment of energy transferred leads to a relatively much larger increase of the information exchanged. Then, we propose an -experimental- implementation of a 1-dimensional communication channel based on a Hamiltonian system, and calculate the actual rate with which information is exchanged between the first and last particle of the channel. Finally, a relation between our results and important quantities of thermodynamics is presented.



Author: Antonopoulos, Chris G.; Bianco-Martinez, Ezequiel; Baptista, Murilo S.

Source: https://archive.org/







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