Continuous-time random walks with reset events

Montero, Miquel; Masó-Puigdellosas, Axel; Villarroel, Javier

doi:10.1140/epjb/e2017-80348-4

Cited by 71 publications

(57 citation statements)

References 53 publications

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“…These studies follow many previous works in mathematics, in queuing theory and in population dynamics, in particular, on stochastic processes involving some form of random resets, variously referred to as failures, catastrophes, disasters or decimations; see, e.g., [17][18][19][20][21][22][23][24][25]. Most of these works, as well as those from physics mentioned above, make use of the correspondence that exists between resets and renewals to obtain renewal representations of both time-dependent and stationary distributions, in addition to first-passage statistics.…”

Section: Introductionmentioning

confidence: 70%

Spectral properties of simple classical and quantum reset processes

et al. 2018

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We study the spectral properties of classical and quantum Markovian processes that are reset at random times to a specific configuration or state with a reset rate that is independent of the current state of the system. We demonstrate that this simple reset dynamics causes a uniform shift in the eigenvalues of the Markov generator, excluding the zero mode corresponding to the stationary state, which has the effect of accelerating or even inducing relaxation to a stationary state. Based on this result, we provide expressions for the stationary state and probability current of the reset process in terms of weighted sums over dynamical modes of the reset-free process. We also discuss the effect of resets on processes that display metastability. We illustrate our results with two classical stochastic processes, the totally asymmetric random walk and the one-dimensional Brownian motion, as well as two quantum models: a particle coherently hopping on a chain and the dissipative transverse field Ising model, known to exhibit metastability.

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Section: Introductionmentioning

confidence: 70%

Spectral properties of simple classical and quantum reset processes

et al. 2018

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“…For example, as a consequence of such resetting, dispersal is asymptotically suppressed and a steady state is reached. Thereafter, this property has been confirmed by numerous works on Markovian resets in different contexts, as multi-dimensional diffusion [11], coagulation-diffusion processes [12], confined diffusion [13,14], diffusion with a refractory period after the resets [15], anomalous subdiffusion [16,17], monotonic stochastic motion [18,19], continuous-time random walk (CTRW) velocity models [20], the telegraphic process [21] and underdamped Brownian motion [22]. Likewise, in [23], a steady state is shown to appear when a diffusion process is restarted at a time-dependent rate and in [24] power-law reset time probability density functions (pdf) are considered and conditions for a steady state to exist are found.…”

Section: Introductionmentioning

confidence: 72%

Anomalous Diffusion in Random-Walks With Memory-Induced Relocations

2019

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In this minireview we present the main results regarding the transport properties of stochastic movement with relocations to known positions. To do so, we formulate the problem in a general manner to see several cases extensively studied during the last years as particular situations within a framework of random walks with memory. We focus on (i) stochastic motion with resets to its initial position followed by a waiting period, and (ii) diffusive motion with memory-driven relocations to previously visited positions. For both of them we show how the overall transport regime may be actively modified by the details of the relocation mechanism. arXiv:1910.09913v1 [cond-mat.stat-mech]

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“…The properties of rBM, and reset processes in general [29], have been the subject of several recent studies, related to random searches and randomized algorithms [2-4, 6, 8, 10, 12, 19, 23] (which can be made more efficient by the addition of resetting [11]), queueing theory (where resetting accounts for the accidental clearing of queues or buffers), as well as birth-death processes [7,9,20,26,30,31] (in which a population is drastically reduced as a result of natural disasters or catastrophes). In biology, the attachment, targeting and transcription dynamics of enzymes, proteins and other bio-molecules can also be modelled with reset processes [5,15,27,[32][33][34]39].…”

Section: Introductionmentioning

confidence: 99%

Properties of additive functionals of Brownian motion with resetting

Hollander¹,

Majumdar²,

Meylahn³

et al. 2019

J. Phys. A: Math. Theor.

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We study the distribution of additive functionals of reset Brownian motion, a variation of normal Brownian motion in which the path is interrupted at a given rate and placed back to a given reset position. Our goal is two-fold: (1) For general functionals, we derive a large deviation principle in the presence of resetting and identify the large deviation rate function in terms of a variational formula involving large deviation rate functions without resetting.(2) For three examples of functionals (positive occupation time, area and absolute area), we investigate the effect of resetting by computing distributions and moments, using a formula that links the generating function with resetting to the generating function without resetting.

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Continuous-time random walks with reset events

Cited by 71 publications

References 53 publications

Spectral properties of simple classical and quantum reset processes

Spectral properties of simple classical and quantum reset processes

Anomalous Diffusion in Random-Walks With Memory-Induced Relocations

Properties of additive functionals of Brownian motion with resetting

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