This paper shows that the epsilon entropy in the sup norm of a wide variety of processes with continuous paths on the unit interval is finite. In fact, the class coincides with the class of processes for which proofs of continuity have been given from a covariance condition. This suggests the conjecture that the epsilon entropy of any process continuous on the unit interval is finite in the sup norm of continuous functions. The epsilon entropy considered in this paper is defined as the minimum Shannon entropy of any partition by sets of diameter at most epsilon of the space of continuous functions on the unit interval, where the probability is the one inherited from the given process. The proof proceeds by constructing partitions and estimating their entropy using probability bounds.
Publié le : 1973-08-14
Classification:
Probability-stochastic processes,
general theory (6040),
Information and Communication,
Circuits,
Automata,
Information Theory (9420),
Epsilon entropy,
continous processes,
modulus of continuity,
partitions,
covariance conditions,
Wiener process
@article{1176996894,
author = {Posner, Edward C. and Rodemich, Eugene R.},
title = {Epsilon Entropy of Stochastic Processes With Continuous Paths},
journal = {Ann. Probab.},
volume = {1},
number = {5},
year = {1973},
pages = { 674-689},
language = {en},
url = {http://dml.mathdoc.fr/item/1176996894}
}
Posner, Edward C.; Rodemich, Eugene R. Epsilon Entropy of Stochastic Processes With Continuous Paths. Ann. Probab., Tome 1 (1973) no. 5, pp. 674-689. http://gdmltest.u-ga.fr/item/1176996894/