Decision Making in the Arrow of Time

Edgar Roldan; Izaak Neri; Heinrich Doerpinghaus; Frank Juelicher

doi:10.1103/PhysRevLett.115.250602

Decision Making in the Arrow of Time

Edgar Roldan, Izaak Neri, Heinrich Doerpinghaus, Frank Juelicher

Mathematics

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Abstract

We show that the steady-state entropy production rate of a stochastic process is inversely proportional to the minimal time needed to decide on the direction of the arrow of time. Here we apply Wald’s sequential probability ratio test to optimally decide on the direction of time’s arrow in stationary Markov processes. Furthermore, the steady-state entropy production rate can be estimated using mean first-passage times of suitable physical variables. We derive a first-passage time fluctuation theorem which implies that the decision time distributions for correct and wrong decisions are equal. Our results are illustrated by numerical simulations of two simple examples of nonequilibrium processes.

Original language	English
Article number	250602
Number of pages	5
Journal	Physical Review Letters
Volume	115
Early online date	16 Dec 2015
DOIs	https://doi.org/10.1103/PhysRevLett.115.250602
Publication status	E-pub ahead of print - 16 Dec 2015

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10.1103/PhysRevLett.115.250602

Decision Making_ROLDAN_Accepted 15 Nov 15_GREEN_AAMAccepted author manuscript, 1.12 MB

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title = "Decision Making in the Arrow of Time",

abstract = "We show that the steady-state entropy production rate of a stochastic process is inversely proportional to the minimal time needed to decide on the direction of the arrow of time. Here we apply Wald{\textquoteright}s sequential probability ratio test to optimally decide on the direction of time{\textquoteright}s arrow in stationary Markov processes. Furthermore, the steady-state entropy production rate can be estimated using mean first-passage times of suitable physical variables. We derive a first-passage time fluctuation theorem which implies that the decision time distributions for correct and wrong decisions are equal. Our results are illustrated by numerical simulations of two simple examples of nonequilibrium processes.",

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AU - Roldan, Edgar

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AU - Doerpinghaus, Heinrich

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N2 - We show that the steady-state entropy production rate of a stochastic process is inversely proportional to the minimal time needed to decide on the direction of the arrow of time. Here we apply Wald’s sequential probability ratio test to optimally decide on the direction of time’s arrow in stationary Markov processes. Furthermore, the steady-state entropy production rate can be estimated using mean first-passage times of suitable physical variables. We derive a first-passage time fluctuation theorem which implies that the decision time distributions for correct and wrong decisions are equal. Our results are illustrated by numerical simulations of two simple examples of nonequilibrium processes.

AB - We show that the steady-state entropy production rate of a stochastic process is inversely proportional to the minimal time needed to decide on the direction of the arrow of time. Here we apply Wald’s sequential probability ratio test to optimally decide on the direction of time’s arrow in stationary Markov processes. Furthermore, the steady-state entropy production rate can be estimated using mean first-passage times of suitable physical variables. We derive a first-passage time fluctuation theorem which implies that the decision time distributions for correct and wrong decisions are equal. Our results are illustrated by numerical simulations of two simple examples of nonequilibrium processes.

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DO - 10.1103/PhysRevLett.115.250602

M3 - Article

SN - 0031-9007

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JO - Physical Review Letters

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Decision Making in the Arrow of Time

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