Litcius/Paper detail

Random walks on complex networks under time-dependent stochastic resetting

Hanshuang Chen, Yanfei Ye

2022Physical review. E21 citationsDOI

Abstract

We study discrete-time random walks on networks subject to a time-dependent stochastic resetting, where the walker either hops randomly between neighboring nodes with a probability 1-ϕ(a) or is reset to a given node with a complementary probability ϕ(a). The resetting probability ϕ(a) depends on the time a since the last reset event (also called a, the age of the walker). Using the renewal approach and spectral decomposition of the transition matrix, we formulate the stationary occupation probability of the walker at each node and the mean first passage time between two arbitrary nodes. Concretely, we consider two different time-dependent resetting protocols that are both exactly solvable. One is that ϕ(a) is a step-shaped function of a and the other one is that ϕ(a) is a rational function of a. We demonstrate the theoretical results on several different networks, also validated by numerical simulations, and find that the time-modulated resetting protocols can be more advantageous than the constant-probability resetting in accelerating the completion of a target search process.

Topics & Concepts

Reset (finance)Random walkNode (physics)Random walker algorithmDiscrete time and continuous timeEvent (particle physics)Stochastic processFirst-hitting-time modelFunction (biology)Constant (computer programming)Stochastic matrixComputer scienceStatistical physicsMathematicsMarkov chainPhysicsStatisticsQuantum mechanicsEconomicsFinancial economicsProgramming languageBiologyEvolutionary biologyDiffusion and Search DynamicsMathematical and Theoretical Epidemiology and Ecology ModelsComplex Network Analysis Techniques