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| Format: | Preprint |
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2024
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| Online Access: | https://arxiv.org/abs/2410.16889 |
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| _version_ | 1866929554207014912 |
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| author | Abundo, Mario |
| author_facet | Abundo, Mario |
| contents | We address some inverse problems for the first-passage place and the first-passage time of a one-dimensional diffusion process $\mathcal X(t)$ with stochastic resetting, starting from an initial position $\mathcal X(0)= η;$ this type of diffusion $\mathcal X(t)$ is characterized by the fact that a reset to the position $x_R $ can occur according to a homogeneous Poisson process with rate $r>0.$ As regards the inverse first-passage place problem, for random $η\in (0,b), \ b < + \infty$ (and fixed $r$ and $x_R \in (0,b))$, let $τ_{0,b}$ be the first time at which $\mathcal X(t)$ exits the interval $(0,b),$ and $π_0 = P(\mathcal X(τ_{0,b}) = 0)$ the probability of exit from the left end of $(0,b);$ given a probability $q \in (0,1),$ the inverse first-passage place problem consists in finding the density $g$ of $η,$ if it exists, such that $π_0 = q.$ Concerning the inverse first-passage time problem, for random $η\in (0, + \infty)$ (and fixed $r$ and $x_R >0)$, let $τ$ be the first-passage time of $\mathcal X(t)$ through zero; for a given distribution function $F(t)$ on the positive real axis, the inverse first-passage time problem consists in finding the density $g$ of $η,$ if it exists, such that $P(τ\le t ) = F(t), \ t >0.$ In addition to the case of random initial position $η,$ we also study the case when the initial position $η$ and the resetting rate $r$ are fixed, whereas the reset position $x_R$ is random. For all types of inverse problems considered, several explicit examples of solutions are reported. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2410_16889 |
| institution | arXiv |
| publishDate | 2024 |
| record_format | arxiv |
| spellingShingle | Inverse first-passage problems of a diffusion with resetting Abundo, Mario Probability We address some inverse problems for the first-passage place and the first-passage time of a one-dimensional diffusion process $\mathcal X(t)$ with stochastic resetting, starting from an initial position $\mathcal X(0)= η;$ this type of diffusion $\mathcal X(t)$ is characterized by the fact that a reset to the position $x_R $ can occur according to a homogeneous Poisson process with rate $r>0.$ As regards the inverse first-passage place problem, for random $η\in (0,b), \ b < + \infty$ (and fixed $r$ and $x_R \in (0,b))$, let $τ_{0,b}$ be the first time at which $\mathcal X(t)$ exits the interval $(0,b),$ and $π_0 = P(\mathcal X(τ_{0,b}) = 0)$ the probability of exit from the left end of $(0,b);$ given a probability $q \in (0,1),$ the inverse first-passage place problem consists in finding the density $g$ of $η,$ if it exists, such that $π_0 = q.$ Concerning the inverse first-passage time problem, for random $η\in (0, + \infty)$ (and fixed $r$ and $x_R >0)$, let $τ$ be the first-passage time of $\mathcal X(t)$ through zero; for a given distribution function $F(t)$ on the positive real axis, the inverse first-passage time problem consists in finding the density $g$ of $η,$ if it exists, such that $P(τ\le t ) = F(t), \ t >0.$ In addition to the case of random initial position $η,$ we also study the case when the initial position $η$ and the resetting rate $r$ are fixed, whereas the reset position $x_R$ is random. For all types of inverse problems considered, several explicit examples of solutions are reported. |
| title | Inverse first-passage problems of a diffusion with resetting |
| topic | Probability |
| url | https://arxiv.org/abs/2410.16889 |