Random Motions in Markov and Semi-Markov Random Environments 2. Anatoliy Swishchuk
Чтение книги онлайн.

Читать онлайн книгу Random Motions in Markov and Semi-Markov Random Environments 2 - Anatoliy Swishchuk страница 7

Название: Random Motions in Markov and Semi-Markov Random Environments 2

Автор: Anatoliy Swishchuk

Издательство: John Wiley & Sons Limited

Жанр: Математика

Серия:

isbn: 9781119808176

isbn:

СКАЧАТЬ closed-form expressions in relevant applications.

      Part 1 of Volume 2 extends many of the results of the latter part of Volume 1 to higher dimensions and consists of two chapters (1 and 2). Chapter 1 has the importance of presenting novel results of the random motion of the realistic three-dimensional case that has barely been mentioned in the literature. Chapter 2 deals with the interaction of particles in Markov and semi-Markov media, a topic many researchers have a strong interest in.

      Part 2 of Volume 2 discusses applications of Markov and semi-Markov motions in mathematical finance across three chapters (3, 4 and 5). It includes applications of the telegraph process in modeling a stock price dynamic (Chapter 3), pricing of variance, volatility, covariance and correlation swaps with Markov volatility (Chapter 4), and the same pricing swaps with semi-Markov volatilities (Chapter 5).

      The following is a general overview of the chapters and sections of the book. Chapters 1 and 2 of Volume 1 review the literature on the topic of random evolutions and outline the main areas of research. Many of these auxiliary results are used throughout the book.

      Section 1.1 outlines research directions on the theory of telegraph processes and their generalizations.

      In section 1.2, we introduce the notion of the projector operator and the generalized inverse operator or potential for an invertible reduced operator used in perturbation theory for linear operators. In turn, this theory is often used in the study of the asymptotic distribution of probability for reaching a “hard to reach domain”.

      In section 1.3, we consider the notion of a semigroup of operators generated by a Markov process. We give the definitions of the infinitesimal operator, the stationary distribution and the potential of a Markov process. These concepts are used in Chapter 3 for the asymptotic analysis of large deviations of semi-Markov processes.

      Section 1.4 provides a constructive definition of a semi-Markov process based on the concept of the Markov renewal process (MRP). The notion of the semi-Markov kernel, which is a key definition for MRP, is considered. For a semi-Markov process, we introduce some auxiliary processes, with which a semi-Markov process forms a two-component (or bivariate) Markov process, and for such a process the infinitesimal operator is presented.

      In section 1.5, we consider the notion of a lumped Markov chain and describe a phase merging scheme.

      In Chapter 2 of Volume 1 we introduce homogeneous random evolutions (HRE), the elementary definitions, classification and some examples. We also present the martingale characterization and an analogue of Dynkin’s formula for HRE. Some other important topics covered in this chapter are limit theorems, weak convergence and diffusion approximations, which are useful for Part 2 of Volume 2.

      In Chapter 3 of Volume 1 we consider the asymptotic distribution of a functional of the time for reaching “hard to reach” areas of the phase space by a semi-Markov process on the line.

      Section 3.1 is devoted to the analysis of the asymptotic distribution of a functional related to the time to reach a level that is infinitely removed by a semi-Markov process on the set of natural numbers.

      In section 3.2, we give asymptotic estimates for the distribution of residence times of the semi-Markov process in the set of states that expands when the condition of existence of the functional A is not fulfilled.

      In section 3.3, we obtain the asymptotic expansion for the distribution of the first exit time from the extending subset of the phase space of the semi-Markov process embedded in the diffusion process.

      In section 3.4, we obtain asymptotic expansions for the perturbed semigroups of operators of the respective three-variate Markov process (after the standard extension of the phase space of the perturbed random evolution (t, x) in the semi-Markov media), provided that the evolution (t, x) weakly converges to the diffusion process as ε > 0.

      In section 3.5, we obtain asymptotic expansions under Kac’s condition in the diffusion approximation for the distribution of a particle position, which performs a random walk in a multidimensional space with Markov switching.

      Section 3.6 describes a novel financial formula as an alternative to the well-known Black–Scholes formula for modeling the dynamic behavior of stock markets. This new formula is based on the asymptotic expansion for the singularly perturbed random evolution in Markov media.

      In section 4.1, we derive the stationary distribution of transport processes with delaying in the boundaries in Markov media. These results are applicable to the study of multiphase systems with several reservoirs.

      Section 4.2 deals with the СКАЧАТЬ