Continuous sample space reducing stochastic process

Abstract

We propose a simple model for sample space reducing (SSR) stochastic process, where the dynamical variable denoting the size of the state space is continuous. In general, one can view the model as a multiplicative stochastic process, with a constraint that the size of the state space cannot be smaller than a visibility parameter ε. We study the survival time statistics that reveal a subtle difference from the discrete version of the process. A straightforward generalization can explain the noisy SSR process, characterized by a tunable parameter λ ∈ [0, 1]. We also examine the statistics of the size of the state space that follows a power-law distributed probability Pε(z ε) z-α, with a nontrivial value of the exponent as a function of the tunable parameter α = 1+λ.