Self-Exciting Random Evolutions (SEREs) and their Applications (Version 2)
Abstract
This paper is devoted to the study of a new class of random evolutions (RE), so-called self-exciting random evolutions (SEREs), and their applications. We also introduce a new random process such that it is based on a superposition of a Markov chain and a Hawkes process i.e., We call this process self-walking imbedded semi-Hawkes process (Swish Process or SwishP). Then the self-exciting REs (SEREs) can be constructed in similar way as, e.g., semi-Markov REs, but instead of semi-Markov process we have SwishP. We give classifications and examples of self-exciting REs (SEREs). Then we consider two limit theorems for SEREs such as averaging (Theorem 1) and diffusion approximation (Theorem 2). Applications of SEREs are devoted to the so-called self-exciting traffic/transport process and self-exciting summation on a Markov chain, which are examples of continuous and discrete SERE. From these processes we can construct many other self-exciting processes, e.g., such as impulse traffic/transport process, self-exciting risk process, general compound Hawkes process for a stock price, etc. We present averaged and diffusion approximation of self-exciting processes. The novelty of the paper associated with new models, such as and SERE, and also new features of SEREs and their many applications, namely, self-exciting and clustering effects.
Cite
@article{arxiv.2412.10592,
title = {Self-Exciting Random Evolutions (SEREs) and their Applications (Version 2)},
author = {Anatoliy Swishchuk},
journal= {arXiv preprint arXiv:2412.10592},
year = {2025}
}
Comments
28 pages